micro-TPCを用いた 電子陽電子対生成カメラの原理実証 ......Angular Resolution 入射ガンマ線と再構成ガンマ線との 角度のずれの二乗分布@20MeV
LEGAL - Nuclear Energy Agency · the newslettprs will be produced directly from this typescript....
Transcript of LEGAL - Nuclear Energy Agency · the newslettprs will be produced directly from this typescript....
LEGAL NOTICE
Neither the Organisation f o r Economic Co-operation and Development, any of i t s Member Countries, o r t h e i r agencies, nor any person o r organisation acting e i t he r on behalf of any of them or otherwise in the development, compilation, publication o r dis t r ibut ion of the information i n t h i s report :
1. makes any warranty or representation, expressed o r implied, with respect t o the accuracy, completeness, or usefulness of the information which i t contains, o r t ha t the use of any information, apparatus, method, o r process disclosed may not infringe privately-owned rights; or
2. assumes any l i a b i l i t i e s with respect to the use o f , or f o r damage result ing from the use o f , any information, apparatus, method or process disclosed.
AVERTISSEMENT
LIOrganisation de Coop6ration e t de Developpement Economiques, ses pays membres, ou leurs agences, les personnes ou organisation agissant en leurs noms ou pour l e d6veloppement, l a compilation, l a publication ou l a dis t r ibut ion de l ' i n fo r - mation dans ce rapport :
1. Me garantissent, express6ment ou imp1 i c i tement ni que les informations c i - jo in tes sont exactes e t complStes, n i que l ' u t i l i s a t i on de ces informations, a insi que des appareils , m6thodes ou proc6d6s decr i ts ne portent pas a t t e in t e ?I des dro i t s acquis ; ou
2 . N'assument aucune responsabili t6 en ce q u i concerne l ' u t i l i s a t i o n des di t e s informations, apparei l S , m6thodes ou procedes ainsi que les consequences pouvant en resul t e r .
The N.E.A. Data Bank i s par t of the Organisation f o r Economic Co-operation and Development and i s financed by the following seventeen member countries :
Austria, Belgium, Denmark, Finland, France, Germany, Greece, I t a ly , Japan, the Netherlands, Norway, Portugal, Spain, Sweden, Switzerland, Turkey and the United Kingdom.
La Banque de Donnges de 1'AEN f a i t par t ie de l10rganisation de 3 e t e s t finance par les six-sept pays membres suivants :
A1 l emagne, Autriche, Belgique, Danemark, Espagne, Finlande, France, GrSce, I t a l i e , Japon, NorvSge, Pays-Bas, Portugal, Royaume-Uni, Suede, Suisse e t Turquie.
GENERAL RECOMMEIIDATIONS TO CONTRIBUTORS
Contents and Presentation
These newsletters a re meant t o be informal : nevertheless, we t h i n k i t useful t o give some recommendations concerning the contents, presentation, d i s t r ibu t ion , e t c .
The Newsletters are concerned with evaluation a c t i v i t i e s - with evaluation work i t s e l f and w i t h computer programs useful fo r
evaluation.
Experimenters should be careful t o distinguish between "evaluating" a l l the good data and the more customary process of simply analysing t h e i r own measurements.
When compiling your contribution, the following he~dings may serve as a guide :
1. Names, address, telepkone number, te lex code.
2. Work recently completed and publications.
3. Work in progress - please give names of physicists doing each evaluation.
4. Work planned f o r near future , i e . , work expected t o s t a r t within s ix months (before publication of the next newsletter).
5. Computer programs f o r : nuclear data f i l e operations - nuclear data analysis - nuclear model calculations.
Any note or report mentioned should be available on request to another evaluator f o r h i s own use but not necessarily f o r widespread copying and re-distr ibution. The dis t r ibut ion l i s t of each newsletter wi l l be attached t o i t .
Contributions should be forwarded typewritten i n s ingle spacing, as
the newslettprs will be produced d i rec t ly from t h i s typescript .
IMPORTANT NOTE
Future Neutron Nuclear Data Evaluation Newsletters will be e is t r ibuted on 1 s t June and 1 s t December each year.
Evaluators are requested t o send t h e i r contributions by :
15th !.!ay and 15th November
NEA DATA BANK Boite Postale 9 91190 GIF SUR YVETTE t RANCE
NEUTRON NUCLEAR DATA EVALUATION NEWSLETTER
NNDEN/25
Th is newslet ter summarizes eva lua t ion a c t i v i t y i n the OECD area. It should be noted t h a t work i n progress and f u t u r e plans c i t e d i n t h i s document may be changed w i thou t no t i ce : consequently, the news le t te r should n e i t h e r be quoted as a reference i n pub l i ca t i ons nor be l i s t e d i n an abs t rac t journa l .
The in fo rmat ion contained i n t h i s newslet ter concerns :
1. Evaluat ion work on p a r t i c u l a r nucl ides;
2 . Development o f codes f o r the manipulat ion o f data and f o r the c a l c u l a t i o n o f cross sect ions;
3. Pub l ica t ions re levan t t o the neutron data f i e l d .
Cont r ibu t ions on eva lua t ion a c t i v i t i e s have been rece ived from :
Page
FRANCE CEN, Bruyeres-le-Chstel 1 CEN, Cadarache 3
ITALY CNEN, Bologna 5
JAPAN Japanese Nuclear Data 7 Committee
NETHERLANDS ECN, Pet ten 9
UNITED KINGDOM AERE, Harwell/AEE, W i n f r i t h 11
UNITED STATES Hanford Engineering 14 Development Laboratory Nat ional Nuclear Data Centre 16
Other in fo rmat ion inc luded i n t h i s issue :
P a r t i a l CINDA index t o na t i ona l progress 24 repo r t s t o NEANDC ( In fo rn ia t ion f o r some count r ies was n o t y e t ava i l ab le when the issue was prepared).
Nuclear Data f i l e s and mul t i -group cross sect ions sets a v a i l a b l e from the NEA Data Bank (a f u l l e r desc r ip t i on o f these data f i l e s i s i n preparat ion, and w i l l be a v a i l a b l e on request) .
December, 1978
1 - NEW EVALUATIONS RECENTLY COMPLETED a ) , I N PROGRESS b) OR
PLANNED I N THE NEAR FUTURE c )
For t h e USA c o n t r i b u t i o n , s e e pages 14 t o 16
Data Type
many
a l l
many
many
Capt.
Capt.
(n ,2n)
cap t .
"W
"V
cap t .
Capt.
Capt.
many
Capt.
cap t .+sca t t
"W Capt.
Nuclide
C-13
Na-22
Ar-38
Ar-40
SC-45
Cr- isot .
Cr-50
Fe- isot .
~ e - 5 4
CO-58m
Ni- lsot .
Ni-58
~ i - 6 0
~ i - 6 2
Ni-64
Cu-isot.
~ n - 6 4
Se-76
Se-78
Rb-85
Nb-93
Nb-93m
Nb-lsot.
MO
MO
MO-92
MO-94
MO-95
MO-97
MO-98
Tc-99
Ru-l01
Ru-102
Ru-104
Energy Range
10UeV-20MeV
t o 40MeV
t o 20MeV
t 5keV-5MeV
5keV-5MeV
t o 40MeV
10UeV-l5MeV
10peV- 15MeV
Data Type
(n ,2n)
cap t . cap t .
cap t .
cap t .
He prod.
c a p t .
He prod.
cap t .
Capt.
He prod.
a l l
a l l
Capt.
c a p t .
He prod.
cap t .
s c a t t .
s c a t t .
(n ,2n)
e l + i n e l scal
e l + i n e l sca1.t
He prod.
Capt.
many
Energy Range
1 CV eV-2OMeV
t o 20MeV
1OUeV-20MeV
10,,eV-20MeV
10~eV-20Mev 10peV-20MeV
Nuclide
RU-106
~ h - 1 0 3
Rh-103
Pd-105
Pd-105
Pd-107
Pd-nat . Ag-nat
Ag- 109
~ n - 1 1 2
CS-133
CS-135
Ce-138
~ e - 1 4 0
~ e - 1 4 4
Nd-nat . Nd-nat . ~ d - 143
Nd- 143
Nd-isot.
~ d - 1 4 5
Nd-147
pm-147
Pm- 147
Sm-nat . Sm- 149
Sm- 149
Sm-151
Sm-151
sm-154
Gd-isot . Tb-159
%I- 1 69 W-169
c
2
10
2
2
10
10
10
15
15
10
15
10
10
15
Pages
. a
9
9
9
9
1 1
I
1
1
1
9
7
7
b
14
14
6
14
14
9
9
14
14
14
14
2
14
9
6
14
14
14
9
6
14
6
14
2
2
Pages
a b c
2
9
9
4
4
14
9
2
14
14
14
14
14
14
14
14
Data Type
many
fission
many
scatt.
reson.param:;. (2 papers)
Nuclide
Pu-240
PU-241
PU-241
Pu-241
Pu-242
Pu-242
Am-241
c
8
10
l l L
Pages
a b
5
1
3
7
335
5
9
9
9
7
Energy Range
reson.region
10keV-20MeV
reson. region
Nuclide
Lu-isot.
Lu-175
Lu-175
W-isot.
W-isot . Ir-nat
Pt-196
AU-197
7
6
7
6
4 6 12
6
6
12
14
2
2
12
1
Energy Range
500keV-20MeV
sratt
1meV-20MeV
10ke~-57~e~
Data Type
many
(n,2n)
(n,3n)
many
capt+inel
many
scatt.
(opt. model
Au-isot.
Th-228
Th-230
Th-230
Th-232
Th-232
Th-233
~h-234
Pa-231
Pa-233
U-232
U-233
U-235
U-235
U-235
U-238
U-238
U-238
Np-237
PU-236
Pu-238
Pu-239
Pu-239
Pu-239
Pu-239 Pu-240
0.3-2.4MeV
100eV-20MeV
. &spect15-20MeV
.
thermal 10keV-20MeV
n.Zn,np,nx
many
many
many
many
many
many
tot.+ fiss.
(n,w)
fission
maw
many
reson.paramr
(n, y)
reson.param:
many
many
(n,xn)
fission
many
fission scatt .
Pages
14
1
14
14 14
5
7
5
1
2
1 C,, eV- 15MeV
reson.region
reson.region
up to 2OMeV
25-group
decay heat :.ight masspk
1
1
1
1
1
a b c
Service de Physique nuclkaire
Centre dlEtudes de Bruybres-le-Chdtel
Fgance
Names r O.BERSILLON, J.P.DELAROCHE, J.E.DUFOUR, L.FAUGERE, J.JARY, Ch-LAGRANGE, C.PHILIS, J.SALVY, G.SINON, N.?ERGES
Address r Service de Physique nucl6aire Centre dlEtudes de BruyBres-Le-Chbtel BP no 561 92542 MONTROUGE Cedex, Frmce
Work r e c e n t l y m l e t e d and publications
- C .PHILIS, P.G.YOUNG* , E.D.ARTHUR* "An evaluation of the 175~u(n,2n)
174~u, 175~u(n,2n) 174m~u and 175~u(n,3n)173~u cross sections from threshold to 20MeV " Report LA-7236 PIS (1978)
- Ch.LAGRANGE, J.JARY "Coherent optical and statistical model calcu- lations of neutron cross sections for 2 4 0 ~ ~ and 242~u between lOkeV and 20MeV" Report NEANDC(E)~~~"L", IBDC(FR)~O/L (1978)
- J.P.DELAROCHE "Potential optique nu~leon-'~~Au entre lOkeV et 57MeVt1, Com.HARWELL Conf., Sept. 1978
- J.P.DELAROCHE "Effets des d6formations non axiales sur la diffusion
des ~eutrons par 76s78~e et 1 9 6 ~ t n , CO=.ZZBWELL conf. ,~ept .l978
- O.BERSILLON, L.FAUGERE "Calcul des s?ectres d'kmission et de sec- tions efficaces par le modkle dtexci+&6s de GRIFFILU'", Com.HBRWELL Conf., Sept .l978
- G-SIMON, E.D.ARTHUR* ,C.PHILIS, 0.B23SILLON tlEvaluation des sections
efficaces neutroniques de 16'Tm de IC-'~V B ?nMeVI1, Com.HARWELL Conf. Sept. 1978
- O.BERSILLON, G.SIMON, C.PHILIS, E.D..i3?3G3* "Evaluation des Sections
efficaces neutroniques de Ir nature1 ds lce5ev B 20MeVn, Com.EARWFLL Conf., Sept .l978
- G.SIMON, E.D.ARTHURe , C.PHILIS, 0.332SfLLOiu' "Evaluation of the
capture cross section. of 6 9 ~ m from 1 0 - ~ e ~ to 20tIeVv, 1nt.Symp. on Neutron Capture, BROOKHAVEN, Sept .l978
- Theoretical calculations of neutron elzstic and inelastic scattering 93 cross sections for. Nb and 93mNb fro= 5keV to 5MeV (J.P.DELAROCHE,
ch. LAGRANGP )
- Relations between fission probabilities and thernal cross sections (J.JARY)
- Preliminary theoretical interpretation of neutron cross sections (total, fission, capture, elastic and inelastic scattering) and fission products angular distributions for 232~h from 0.3bIeV to 2.4MeV (J.JARY, with H.ABOU YEHIA and J.TROCHON) . . ./. . .
Work i n p r o g r e s s
- E v a l u a t i o n of (n ,2n ) c r o s s s e c t i o n s f o r 8 5 ~ b and 140ce from t h r e s h o l d t o 2 0 ~ e V (N.VERGES, C.PHILIS )
- E v a l u a t i o n of t h e c a p t u r e c r o s s s e c t i o n f o r 4 5 ~ c and 1 5 4 ~ m f rom
1 0 - ~ e V t o 20MeV (G.SIMON)
- C a r r y i n g o u t o f a F o r t r a n code f o r g e n e r a t i n g m u l t i g r o u p y- ray p r o d u c t i o n c r o s s s e c t i o n s (G.SIMON, R.PESRIER, C.PHILIS)
- T h e o r e t i c a l e v a l u a t i o n s o f ( n , 2 n ) , ( n , p ) and ( n , a ) c r o s s s e c t i o n s f o r a s e t of Au i s o t o p e s (J.JARY)
- O p t i c a l model code w i t h deformed non l o c a l f o l d i n g p o t e n t i a l s t r e a - t e d b y m a t r i x methods (J.M.DUFOUR, J.SALVY)
- C a r r y i n g o u t o f a F o r t r a n code f o r c a l c u l a t i n g c a p t u r e c r o s s sec- t i o n s and a s s o c i a t e d y s p e c t r a f rom d i r e c t and s e m i - d i r e c t mechanisms (J.M. DUFOUR, J.SALVY )
- E v a l u a t i o n o f n e u t r o n c r o s s s e c t i o n s and y- ray p r o d u c t i o n d a t a f o r W i s o t o p e s i n t h e e n e r g y r a n g e 500keV - 20MeV (E.ARTHUR* , C.PHILIS, A.B.SMITH** )
- Coheren t o p t i c a l and s t a t i s t i c a l n o d e l c a l c u l a t i o n s of n e u t r o n c r o s s s e c t i o n s f o r Gd i s o t o p e s (C~.LAGEAZGS, J.P.DELAROCHE )
- T e s t s o f t h e "JLMW o p t i c a l model and i t s a p p l i c a t i o n s f o r c a l c u l a - t i n g n e u t r o n c r o s s - s e c t i o m ( C ~ . L A G B B S G ~ )
- S y s t e m a t i c s t u d y by n u c l e a r models of c h a r a c t e r i s t i c s o f odd a c t i - n i d e s ( J . JARY)
- C a l c u l a t i o n of n e u t r o n s p e c t r a f r o n a c t i n i d e s ( n , x n ) r e a c t i o n s .
A p p l i c a t i o n s t o 235U and 2 3 9 ~ u . (J.JA,Y)
- T h e o r e t i c a l a n a l y s i s o f n e u t r o n c a p t u r e and i n e l a s t i c s c a t t e r i n g of W i s o t o p e s w i t h c o n s i d e r a t i o n of a deformed o p t i c a l p o t e n t i a l (J.P.DELAROCHE)
P l a n s f o r t h e n e a r f u t u r e
- E v a l u a t i o n of c a p t u r e and s c a t t e r i n g c r o s s s e c t i o n s f o r 15'Tb and
c a p t u r e c r o s s s e c t i o n f o r 13*ce fro^ J C - ~ ~ V t o 20XeV ( G . S I ~ ~ O N )
- E v a l u a t i o n of some c r o s s s e c t i o n s f o r u n s t a b l e Lu i s o t o p e s ( 0 .BERSILLOX, C .PHILIS )
- C a l c u l a t i o n s of I 3 c ( n , 2 n ) c r o s s s e c t i o n (J-JARY)
- C o n s i s t e n t c a l c u l a t i o n s by SPRT method of t o t a l , s c a t t e r i n g and
c a p t u r e c r o s s s e c t i o n s f o r ' 0 3 ~ h (C~.LAGXAXGE)
*Los Alamos S c i e n t i f i c L a b o r a t o r y ~ ~ A r g o n n e N a t i o n a l L a b o r a t o r y
NEUTRON NUCLEAR DATA EVALUATION NEWSLETTER - 2 5
CEA/CEN CADARACHE - FRANCE
Names : E . FORT, H.DERRIEN, D. LAFOND, J . P . DOAT, F . CASSANG,
TRANG-QUOC THUONG.
A d d r e s s : CEA/CEN CAOARACHE
DRNR/SPNR
BP N o 1
1 3 1 1 5 - S A I N T PAUL LEZ DURANCE
-Work r e c e n t l y c o m p l e t e d
. C o n t r i b u t e d p a p e r p r e s e n t e d a t HARWELL c o n f e r e n c e ,
S e p t e m b e r 1 9 7 8 :
F i s s i o n P r o d u c t l i b r a r y f o r SUPER-PHENIX p r o j e c t
(DARROUZET, FORT, REFFO e t a l . )
. C o n t r i b u t e d p a p e r p r e s e n t e d a t t h e m e e t i n g o n n u c l e a r
d a t a f o r h i g h e r Pu a n d Am i s o t o p e s , BNL/NNDC,
N o v e m b e r 2 0 - 2 2 1 9 7 8 :
E v a l u a t i o n o f Am 2 4 1 R e s o n a n c e p a r a m e t e r s a n d
t h e i r c o n s e q u e n c e s f o r t h e u n r e s o l v e d r e g i o n
(H.DERRIEN, E. FORT, D. LAFOND).
. To b e p u b l i s h e d i n a NEANDC r e p o r t :
E v a l u a t i o n o f Am 2 4 1 r e s o n a n c e p a r a m e t e r s
( H . DERRIEN).
- Work i n p r o g r e s s
. E v a l u a t i o n o f a c o m p l e t e s e t o f n e u t r o n c r o s s s e c t i o n s
f o r Am 2 4 1 f r o m 1 0 - ~ e v t o 15 MeV
( E . FORT, H . DERRIEN)
. E v a l u a t i o n o f a c o m p l e t e s e t o f n e u t r o n c r o s s s e c t i o n s
f o r 5 8 ~ i a n d 60~i
(D. LAFOND, E . FORT)
. E v a l u a t i o n o f t h e r e s o n a n c e p a r a m t e r s o f Np 2 3 7 (H. DERRIEN)
- Work o n c o d e d e v e l o p m e n t
- I m p r o v e m e n t o f t h e s t a t i s t i c a l c o d e FISINGA : e x t e n s i o n
t o i n c l u d e t h e d o u b l e humped f i s s i o n b a r r i e r
( E . FORT, F . CASSANG)
. Code f o r ( n , X n ) a n d ( n , X n f ) c r o s s s e c t i o n
c a l c u l a t i o n ( E . FORT, J.P DOAT).
C.N.E.N. - DIVISIONE FISICA - LABORATORIO DATI NUCLEAR1 - Via Nazzini, 2 40138 BOLOGNA, ITALY - tel. 307562 - telex 610167 CNEN/BO.I
Names: F. Fabbri, T. Martinelli, E. Menapace, X. Motta, G.C. Panini, G. Reffo,
M. Vaccari, A. Ventura.
Work recently completed and publications -- - An Evaluated Fission Product Data Library for Super Phenix Project.
CNEN-CEA paper presented at Harwell Int. Conf., 25-29 Sept. 1978.
- An Improved 3x9 Approximation for Multiple-Lumped Fission Barriers.
T. Martinelli, E. Menapace, A. Ventura.
Lettere a1 Nuovo Cimento 20, 267 (1977). - - On the Penetrability of Multiple-Lumped Fission Barriers.
T. Martinelli, E. Menapace, A. Ventura.
CNEN Report RT/FI(78)7, 1978.
- On the Fission Probability for 2 3 5 ~ , 239~u and 241~u.
V. Benzi, G. Maino, E. Menapace.
Lettere a1 Nuovo Cimento 21, 231 (1978). - - Parameter Systematics for Statistical Theory Calculations of
Neutron Reaction Cross Section.
G. Reffo.
CNEN Report RT/FI(78)11.
Lectures held at TCTP Triestc during the "Winter Course on
Nuclear Physics and ~eactors", 17 Jan. - 10 March, 1978.
- The R81e of Desk Calculators in Nuclear Data Evaluation.
M. Motta.
Lectures held at ICTP ~rieste during the "winter Course on
Nuclear Physics and Reactors". 17 Jan. - 10 March, 1978.
- Graphs of 25-Group Cross Sections of 63 F.?. Nuclei from
Different Data Files.
A. Montaguti, G.C. Panini, :.l. Vaccari.
(To be published as CNEN Report RT/FI 1978).
Work in progress
- A revision of the evaluation for the fission products Pd105,
Nd143, Sm149 and 151 is in progress. The revision takes into
account the information obtained by integral experiments (see
the quoted paper of Harwell Conf .) (E. Menapace, M. Motta).
Evaluation of the resonance region (resolved and unresolved)
for Pu241, 242, Am243, Cm242 is in progress. In addition, the
evaluation of Am241 in the total range 0-15 MeV is in progress
for a comparison with the contemporary evaluation from CEA-
France and KFK-Germany (E. Menapace, M. Motta, A. Ventura).
Microscopic calculations of nuclear level densities are
presently performed for spherical and stat.ically deformed
nuclei, starting from single particle levels and residual
pairing interaction in the framework of the BCS approximation
(G. Maino, E. Menapace, A. Ventura).
Computer programs
A complete set of codes in basic language for minicomputer
(Olivetti P6060) has been prepared for the manipulation of
data and evaluation of the resolved resonance region (partly
presented at the IAEA Winter Courses 1978 - see quoted pub1 ications) (M. Motta) .
Contribution to Neutron Nuclear Data Evaluation Newsletter-25
Japanese Nuclear Data Committee (Nuclear Data Center, JAERI)
Work recently completed and publication:
(i) Direct and Collective Captures of Energetic Neutrons by Ellipsoidally Deformed Nuclei.
H. Kitazawa, T. Hayase and N. Yamamuro (TIT). (to be published in Nucl. Phys.)
The direct and collective theories for nucleon radiative capture are applied to the ellipsoidally deformed nucleus within the framework of an adiabatic approximation. Numerical application is made for the 238~(n,y)239~ reaction with 5 to 20 MeV neutrons. Contributions of the capture cross section from the rotational bands for all Nilsson levels in 2 3 9 ~ are calculated to produce the excitation curve and capture y-ray spectra for this reaction. Good agreement is obtained between the calculated cross sections and the observed data.
(ii) Evaluation of the Neutron Nuclear Data for "MO and 94~0 T. Hojuyama (MAPI), JAERI-M 7276
(reported in Japanese) Evaluation of the neutron nuclear data for "MO and 94~0 has been
made for the total, elastic scattering, radiative capture and inelastic scattering cross sections in the energy range from 10-~ eV to 15 MeV. These data were compiled in Japanese Evaluated Nuclear Data Library, version one, JENDL-1 together with the data for the other molybdenum isotopes and element molybdenum.
(iii) Evaluation of Neutron Nuclear Data for 245~m S. Igarasi and T. Nakagawa (JAERI), JAERI-M 7733
(reported in Ja anese) Evaluation of neutron nuclear data for 24YCm was performed below
20 MeV. Calculations below 60 eV where the resonance parameters were given were carried out with the single-level formula, and the differences between multilevel and single-level calculations were taken as the background cross sections. Using semi-empirical formula, the fission cross section was obtained above 50 eV. Optical and statistical model calculations were made in order to obtain the total, capture, inelastic and elastic scattering, (n,2n) and (n,3n) reaction cross sections. The number of neutrons per fission was also estimated.
Work in progress:
(i) Study on mutual consistency of the evaluated data for 235~, 238~, 239~u, 240~u, and 2 4 1 ~ ~ is in progress in Working Group on Heavy-Nuclide Nuclear Data of JNDC. The optical potential parameters were also studied for the above five nuclides (from H. Matsunobu, SAEI) .
(ii) Evaluation work of the nuclear data for 2 3 3 ~ is performed. Evaluation of the total cross section and the fission cross section has been almost completed in the energy range from 100 eV to 20 MeV. The optical potential parameters obtained from the evaluation of the total cross section were consistent with those of the other heavy nuclides. (from H. Matsunobu, SAEI).
(iii) Evaluation of neutron nuclear data for 2 3 6 ~ ~ and 238~u is now in progress. The results will be stored in the second version of Japanese Evaluated Nuclear Data Library, JENDL-2. (from T. Hojuyama, MAPI).
(iv) Reevaluation of 232~h neutron nuclear data for JENDL-2 is made. (from T. Ohsawa, KYU).
(V) Evaluation work on resonance parameters of 238~ is making progress. The evaluated parameters will be compiled in JENDL-2. (from T. Nakagawa, JAERI).
Work planned for the near future :
(i) Evaluation of neutron nuclear data for 228~h, 230~h, 233~h and 234~h is going to be made. (from T. Ohsawa, KYU),
(ii) Evaluation on 242~m nuclear data will be started. (from T. Fuketa, JAERI)
S. Igarasi
Nuclear Data Center Tokai Research Establishment Japan Atomic Energy Research Institute Tokai-mura, Naka-gun, Ibaraki-ken, Japan
November 10, 1978
NEUTRON NUCLEAR DATA EVALUATION NEWSLETTER-25
Pe t t en - The Netherlands
1. Names
H. Gruppelaar, R. J. Heijboer , H.A.J. v.d. K a q and H. Akkermans,
Netherlands Energy Research Foundation (ECN), Pe t t en , The Netherlands,
Telephone: (02246) - 6262, t e l ex : 57211 reacp n l .
2. Recent publ ica t ions and p r e p r i n t s on eva lua t ion and adjustment of
c ross sec t ions f o r f iss ion-product nucl ides:
1 1 I H. Gruppelaar, Evaluated neutron cross sec t ions of n a t u r a l
molybdenum, ECN-40 (19 78).
121 H. Gruppelaar, J . W . M . Dekker, A . J . Janssen and H.Ch. R ie f fe ,
Adjustment of eva lua ted neutron capture c ross sec t ions of
Neodymium iso topes t o i n t e g r a l STEK and CFRMF data , I n t . Conf.
on Neutron Physics and Nuclear Data f o r Reactors and o t h e r Applied
Purposes, Harwell, September 1978.
131 R . J . Hei jboer , Pseudo f iss ion-product cross sec t ions f o r a 1300 MWe
f a s t breeder r e a c t o r ( s t a t u s J u l y 1978), ECN-report ( i n p r i n t ) .
3. Work recent ly completed
. Evaluation and adjustment of capture cross sec t ions f o r s t a b l e Nd
i so topes , 1 4 7 ~ d , n a t u r a l Nd and 1 4 7 ~ ~ .
. Adjustment of capture po in t c ross sec t ions f o r about 20 f i s s i o n product
nucl ides i n the s t a t i s t i ca l -mode l energy range.
4. Work i n progress
. Evaluation of capture c ross sec t ions f o r nucl ides i n the primary
cooling c i r c u i t of a LMFBR; e.g. %n, 5 0 ~ r , 5 4 ~ e .
. Contr ibut ionof U and U t o capture cross sec t ions of f i s s i o n products na nP
and l u ~ e d f iss ion-product mixture.
. Evaluat ion of c ross sec t ions f o r n a t u r a l Pd, Ag, Nd, Sm.
. Study of angular d i s t r i b u t i o n s i n pre-equilibrium models.
5. Work planned f o r the near f u t u r e
. Continuation of e f f o r t s i n eva lua t ion and adjustment of capture
c ross sec t ions f o r about 20 fission-product nucl ides .
. Fur the r eva lua t ion of capture cross sec t ions f o r nucl ides i n
the primary cooling c i r c u i t of a LMFBR, i . e . f o r 2 2 ~ a , 3 8 ' 4 0 ~ r , 5 8 y 0 , 6 2 , 6 4 ~ i , 1 1 2 ~ ~ .
6 . Work about codes
The KEDAK processing code MIGROS-3 has been adapted t o the
CDC-CYBER-175 computer.
NUCLEAR DATA EVALUATION NEWSLLTTER
The United Kingdom
1 PERSONNEL
The following graduate personnel a r e currently working on nuclear data evaluation:-
UK Atomic Enerw Authoritx
i ) Winfrith. Nuclear Data Groue J S Story - M F Jamea - R W Smith
Address: Building B21, Atomic Energy Establishment, Winfrith, Dorchester, Dorset. Telephone Dorchester 3111; Telex No 41231
Winfrith Technolom Branch - A L Nichols
Address: Building A50, Atomic Energy Research Establishment, Winfrith, Dorchester, Dorset. Telephone Dorchester 3111; Telex No 41231
i i ) Harwell, Electron Eccelerator Groue (Building 418)
J E Lym - M C Moxon - M G Sowerby - C A Uttley
Address: Atomic Enerm Research Establishment, Harwell, Oxfordshire, 0x11 ORA. Telephone Abingdon 24141: Telex No 83135.
Harwell Chemistry Division (Building 220)
J G Cuninghame - E A C Crouch - Katherine M Glover - M King
Address: Atomic Energy Research Establishment, Harwell, Oxfordshire, OX11 OM. Telephone Abingdon 24141 : Telex No 83135
i i i ) Central E lec t r i c i t y Generating Board
Berkeley Nuclear Laboratory - B S J Davies - A Tobias
Address: Berkeley Nuclear Laboratories, CEGB Berkeley, Gloucestershire G L l j 9PB Telephone Berkeley 451.
i v ) Br i t i sh Nuclear Fuels Ltd
Windscale & Calder Works - J R Parkinson
Address: Windscale & Calder Works, Se l l a f i e l a , Seascale, Cmbria Telephone Seascale 335.
2 WORK COMPLETED
Tobias (CEGB) has extended and improved the fission-product inventory code FISP-5, and has extended h i s code COGEND t o output spontaneous f i ss ion decay data i n ENDF/B-5 format; see references i n Section 5 below.
&i th (W) sent copies of the resonance cross-section code SIGAR-5 (two versions) t o the NEA Data Bank i n July. This programme includes the routine TR-lPO which ca r r i e s out Doppler broadening by numerical integrations.
3 WORK I N PROGRESS at AERE
Evaluation of the Am-241 neutron cross-section datdis v i r tua l ly complete, and a preliminary f i l e is available a s DFN-1009. However, following discussions with AEmJ same mall changes may be made i n the low energy region. Documentation of the f i l e is a lso nearly finished, and w i l l be issued when the modifications referred t o above have been done.
Work continues on provision of data f o r up-dating the f i l e s of the Chemical Nulcear Data Committee (CNDC) :
( i ) The f ission-product decay data s e t URFPDD-1. Davies (CFGB) has extracted fission-nroduct decav data from the ENSDF f o r about 80 nuclides in the l i gh t mass and parkinson (BNFL) has completed evaluations f o r 10 nuclides' i n the heavy mass peak.
Testing of the UKFPDD-1 f i l e i n decay heat calculations (James - AEEW) shows disagreement between calculated and measured values f o r Pu-239 thermal neutron fission. Tobias has attempted t o ident i fy any deficiencies i n the f i l e which might account f o r this. For cooling times below 1000 secs an appreciable f ract ion of the calculated decay heat is from nuclides having semi-empirical values f o r half-l ives and/or mean beta and gamma energies. For 48 of these nuclides ha l f - l i fe measurements have recently been reported, and f o r a fur ther 48 nuclides the decay schemes have been studied experimentally f o r the f i r s t time. It is planned t o include these measured data i n the UKFPDD f i l e by next Easter.
( i i ) Fission-product yields. Crouch (AERE) is compiling fur ther data f o r h i s f ission-yield evaluations and is ref ining the methods used t o produce self-consistent data sets.
( i i i ) Decay data f o r act ivat ion products of s t ruc tura l materials. No fur ther work is planned since what was reported in the last Newsletter.
( iv ) Heavy element and actinide decay data. The f i l e being prepared by Nichols ~ A E E W ) is about half done; when ccmpleted, fo r 119 nuclides, it w i l l be added t o the se t of UKCNDC f i l e s . Recent-work has drawn at ten t ion t o many fur ther measurement requirements, and a list of these w i l l be produced. James (W) is evaluating the spontaneous f i s s ion da ta f o r inclusion in t h i s f i l e .
4 COMPUTER PROGRAMMES - FURTHER WORK
The User's Guide f o r SIGAR-5 is now nearly complete.
A more advanced edi t ion of the programme, SIGAR-6 is still under tes t . This includes a routine fo r calculating the cross-section contributions of d i s tan t unresolved resonances, a routine f o r calculating Lamb's effect ive temperature from the physical and Debye temperatures, and an improved Doppler broadening routine DOPCUB a s an a l te rna t ive t o W O .
Further improvements have been made t o the programme MINIGAL, anda User's Guide is i n draft.
PAPERS 5
TOBIAS A (May 1978) CmB report FUl/B/N-4303. 'FISP-5, an extended and improved version of the fission-product inventory code FISP'.
TOBIAS A (June 1978) CEGB report RD/Bh-4309. 'Extensions t o COGEND f o r ENDF/B-V output of spontaneous f i s s ion decay data'.
I C McKean, (AERE) M G Sowerby (AERF:) J S Story (m)
14 November, 1978
HANFORD ENGINEERING DEVELOPMENT LABORATORY
U.S.A.
1. Names
D. L. Johnson, F. M. Mann, R. E. Schenter and F. Schmittroth,
Hanford Engineering Development Laboratory (HEDL), P.O. Box 1970,
Richland, IVA 99352 U.S.A., Telephone: (509) 942-6598
2. Work recently completed
Evaluation of 4 thorim cycle isotopes for inclusion in ENDF/B-V:
Development of computer code to combine integral (STEK worth ratios
and CFFW reaction rate ratios) and microscopic (experimental data
and evaluated curves) data.
Incorporation of pre-equilibrium (exciton model) and statistical direct
reactions into computer code (HEDL-TME 78-83, to be published).
3. Work in progress
Evaluation of 182 fission product isotopes including 20 of the most
lo5Pd, "TC, 10lm 107pd, important isotopes for FBR applications:
103% 133cs, 149 14SNd, 1OZm , 1 4 7 ~ , sm, , 135~s, 97Mo, Ag, ,
109 106Ru
143~d, 15'srn, 95bb, 98Mo, and 144~e.
Evaluation of capture cross section of Mo.
Calculation of helium production for C u for neutron energies to 40 MeV.
4. Work planned for the near future
Evaluation of actinide, thorium cycle, and fission product isotopes for
ENDF/B-V1
Evaluation of high energy (En > 20 MeV) cross sect.ons for the con-
struction and operation of the Fusion Material Irradiation Testing
(FMIT) Facility.
Evaluation of helium production for stainless steel isotopes and for
Nb for neutron energies up to 40 MeV.
U.S.A. CONTRIBUTION TO NNDEN-25
via the National Nuclear Data Center
RECENT PUBLICATIONS
ANL/NDM-40 February, 1978 4 4 pages
"Statistical Theory of Neutron Nuclear Reactions" P.A. Moldauer
LA-7236 April, 1978 31 pages
"An Evaluation of the 175~u (n,2n) 174~u,, 17'Lu (n,2n) 174m~74, and 175~u (n,3n)
173~u Cross Sections from Threshold to 20 MeV"
C. Philis, PG. Young, E.D. Arthur
ORNL-5393 April, 1978 73 pages
"Sensitivity and Uncertainty Analysis for Functionals of the Time-Dependent
Nuclide Density Field"
M.L. Williams, C.R. Weisbin
oRNL/TM-6245 May, 1978 15 pages
"Review and Combination of Experimental Results for Neutron Emission per Fission
of 232Th"
R. Gwin
ORNLITM-6286 May, 1978 69 pages
"SIOB: A FORTRAN Code for Least Squares Shape Fitting Several Neutron Trans-
mission Measurements Using the Breit-Wigner Multilevel Formula:
G. de Saussure, D.K. Olsen, R.B. Perez
USA - CONTRIBUTIONS TO NNDEN-25 (Cont'd.)
EVALUATIONS RECENTLY COMPLETED OR I N PROGRESS
ENDFIB-V GENERAL PURPOSE FILE
New Materials
Material - - - -- - -- Evaluatol - - - - - - -- - Lab -. Reviewer - - - - -- - - D Stewart LASL Leonard
Li-6 Hale LASL Leonard
Perkins
Hale
Fu
Arthur
Magurno
Larson
Larson
Larson
Larson
Howerton
Howerton
Fu
Smith
Smith
Prince
Mughabghab
Fu
LLL
LASL
ORNL
LASL
BNL
ORNL
ORNL
ORNL
ORNL
LLL
LLL
ORNL
ANL
ANL
BNL
BNL
ORNL
Grimesey
Carlson
Stewart
Magurno
Arthur
Muir
Kuj awski
Divadeenam
Bhat
Larson
Larson
Maerker
Perey
Perey
Larson
Smith
Bhat
LaBauve
CO Mughabghab BNL Mann
N i Divadeenam BNL Foster
Cu Fu ORNL Ottewitte
K r (6 isotopes) Prince BNL Schenter
Z r Drake SA1 Reynolds
Z r (5 isotopes) Drake/ SAI/ Reynolds
Pear l s te in BNL ---
Lab --- BNWL
BNWL
EG&E
NBS
LASL
BNL
LASL
LASL
GE
BNL
BNL
ORNL
ORNL
ORNL
ORNL
ORNL
ORNL
EG&G
BNL
LASL
HEDL
LASL
ORNL
BED1
W L
KAPL
---
New Materials (cont'd).
Material ---- - - - - Evaluator - Tc-99
Rh-103
Ag-107
Ag-109
Cd-113
Xe (9 isotopes)
Cs-133
Ba-138
Sm-149
Eu-151
Eu-153
Gd (7 isotopes)
Schenter
Schenter
Schenter
Schenter
Schenter
Bhat
Schenter
Haverton
Schenter
Mughabghab
Mughabghab
Magurno
Hf Drake
H£ (6 isotopes) Drake/
Pearlstein
Au-197 Mughabghab
Pb Fu
Th-232 Bhat
Pa-233 Mann
U-233 Stewart
U-234 Divadeenam
Mann
U-235 Bhat
U-236 Divadeenaml
Mann
U-238 (S Pennington
Lab --- HEDL
HEDL
HEDL
HEDL
HEDL
BNL
HEDL
LLL
HEDL
BNL
BM.
BM.
SA1
SA11
BNL
BNL
OWL
BNL
HEDL
LASL
BNL/
HEDL
BNL
BNL/ HEDL
ANL
Reviewer
Ottewitte
Leonard
Leonard
Lubitz
Wittkopf
Reynolds
Reynolds --- Leonard
Arthur
Hardy
Peele
Ben j amin
Weston
Poenitz
Benj amin
Stewart
Benj amin
Ku j awski
Hardy
Grimesey
Lab ---
BNWL
BNWL
KAPL
B &W
KAPL
KAE'L --- BNWL
LASL
BAPL
o m SRL
o m ANL
SRL
LASL
SRL
GE
BET
EG&G
New Materials (cont'd).
Material
Np-237
Material - - - - - - - H
N-14
0-16
AI-27
Evaluator -------h
Mannl
Ben j amin
Mann
Kuj awski
Weston
Wes ton
Mann/
Benj amin
Mannl
Weston
Mann/
Benjamin
Benjamin
Mannl
Benjamin
lhn/
Benjamin
Benjamin
Benjamin/
Hower ton
Lab --- HEDL/
SRL
HEDL
GE
ORNL
ORNL
HEDL/
SRL
HEDLl
ORNL
HEDL/
SRL
HEDLI SRL
HEDL/
SRL
HEDL/
SRL
SRL
S%/
LLL
Reviewer -------- Stewart
Benj amin
Pennington
McKnight
Smith
Howerton
Benj amin
Grimesey
Wittkopf
Ottewitte
Howerton
Howerton
Mann
Mann
Evaluator --------- Lab --- Stewart LASL
Young LASL
Young LASL
Young LASL
Lab --- LASL
SRL
ANL
ANL
EG&G
LLL
SRL
INEL
B&W
LLL
LLL
HEDL
HEDL
ORNL
Material --------
MATERIALS FROM ENDF/B-IV CONVERTED TO ENDF/B-V
T
He-3
He-4
Li- 7
B-l1
C1
K
Nb-93
MO
Cd
Dy-164
Lu (2 isotopes)
Ta-181
Ta-182
W (4 isotopes)
Re (2 isotopes)
Evaluator
Stewart
Stewart
Nisley
LaBauve
Cowan
Allen
Drake
Smith
Hower ton
Pearlstein
Leonard
Leonard
Howerton
Otter
Alter
Henders on
Lab. --- LASL
LASL
LASL
LASL
GE, BNL
GGA
GGA
m, LLL LLL
UK, BNL
BNW
BNW
LLL
AI
AI, LASL
GE
DOSIMETRY FILE
EXPECTED RELEASE: MARCH 1979
REACTIONS -- --- ---- EVALUATOR LAB REVIEWER --- -------- ~i~ (total helium production) Hale 3
LASL Leonard
B ~ O (total helium production) Hale 5 LASL Leonard
NaZ3 (n,~) Larson 11
0% Kujawski
s~~ Howerton 16
LLL Smith, Jr.
S C ~ ~ (n,~) Magurno BNL Lippincott 21 ~i~~ 347 948 (,,p) (n,np) Smith ANL Leonard
22 ~n~~ (n,2n) Mughabghab BNL Smith, Jr.
25 ~e~~ 56 (,,p) and peS8 (n,y)
26 26 Fu, Schmittroth ORNL, Smith, DL
HEDL
coS9 (n,y), (n,a) and (n,2n) Mughabghab, eta1 BNL Mann 27
(n,p) and (n,2n) and ~i~O(n,~) Divadeenam BNL Schenter, Smith 2 8 28
~u~~ (n,y) and ~u~~ (n,2n) Mann HEDL Schenter 29 29
(n,n') Smith ANL Sher 49 1n115 (n,y) Schmittroth HEDL
49
Sher SU Schmittroth, Lippincott
~u~~~ (n,y) Mughabghab, eta1 BNL 79 ~h~~~ (n,y) and (n,f) Bhat BNL Leonard
90
(n,y) and (n,f) 92
Bhat, et a1 BNL Stewart
Pennington ANL Kujawski
Mann, Stein HEDL, Stewart LASL
~u~~~ (n,f) Kujawski, et a1 GE Pennington 94
LAB --- BNWL
BNWL
GE
EG&G
HEDL
BNWL
EG&G
ANL
HEDL, ANL
HEDL
HEDL
BNWL
LASL
GE
LASL
ANL
ACTINIDE SPECIAL PURPOSE F I L E
E v a l u a t o r ---- ----- L a b --- R e v i e w e r -- R e i c h INEL Ewbank
R e i c h INEL Ewbank
R e i c h INEL Ewbank
R e i c h INEL Ewbank
R e i c h INEL Ewbank
R e i c h INEL Ewbank
S c h e n t e r HEDL Ewbank
S c h e n t e r HEDL B e n j a m i n
R e i c h INEL Ewbank
R e i c h INEL Ewbank
Mann HEDL B e n j a m i n
R e i c h INEL Ewbank
Mann HEDL B e n j a m i n
Ewbank
B e n j a m i n / S=/ W i t t k o p f
H o w e r t o n LLL
R e i c h INEL Ewbank
R e i c h INEL Ewbank
R e i c h INEL Ewbank
B e n j amin SRL W i t t k o p f
R e i c h INEL Ewbank
M a d HEDL/ W e s t o n
B e n j a m i n SRL
Mann HEDL B e n j amin
B e n j a m i n / S=/ Mann
Hower ton LLL
M a d HEDL W e s t o n
B e n j a m i n SRL
R e i c h INEL Ewbank
B e n j a m i n SRI, Ewbank
L a b --- ORSIL ORNL
ORNL
ORNL
ORNL
ORNL
ORNL
SRL
ORNL
ONRL
SRL
ORNL
SRL
ORNL
B&W
ORNL
ORNL
ORNL
B&W
ORNL
ORNL
SRL
HEDL
ORNL
ORNL
ORNL
M a t e r i a l - Am-244
Am-244m
Cm-241
Cm-242
ACTINIDE SPECIAL P W O S E F ILE ( c o n t ' d )
E v a l u a t o r - R e i c h
R e i c h
Mann
Mann/
B e n j a m i n
B e n j a m i n /
H o w e r t o n
M a m /
B e n j a m i n
R e i c h
B e n j a m i n /
H o w e r t o n
R e i c h
B e n j a m i n /
H o w e r t o n
B e n j a m i n /
H o w e r t o n
B e n j a m i n /
H o w e r t o n
B e n j a m i n /
H o w e r t o n
B e n j a m i n
B e n j a m i n
L a b --- INEL
INEL
HEDL
HEDL
SRL
S=/
LLL
HEDL/
SRL
INEL
S E /
LLL
INEL
sRL/
LLL
sRL/
LLL
sRL/
LLL
S E /
LLL
SRL
SRL
R e v i e w e r - -- - - -- - Ewbank
Ewbank
B e n j amin
H o w e r t o n
S t e w a r t
Ewbank
S t e w a r t
Ewbank
K u j a w s k i
K u j a w s k i
K u j a w s k i
S t e w a r t
H a r k e r
H a r k e r
L a b --- ORNL
ORNL
SRL
LLL
HEDL
LASL
ORNL
LASL
ORNL
GE
LASL
INEL
INEL
- 24 - PARTIAL CINDA INDEX TO NATIONAL E A N D C PROGRESS FtEPORTS
ELT'BNT QUANTITY TYPE ENERGY DOCUfiENTATION LAB COINBNTS S A I I W HAX BEP YOL PAGE DATE .................................................................................................... D 002 D I P F ELASTIC EXPT-PROG 2 5 + 6 3 4 + 6 NEANDC(0R)lSl 6 7 8 NEU CHATELAINt ABST. PHASE S H I F T ANAL.
D 6 0 2 D I P F ELRSTIC EXPT-PROG 8 O t 6 1 C t 7 KDK-23 3 7 4 7 8 UPP AHTENI
D n c 2 POLARIZATION BXPT-PROG 2 6 + 6 N E A N D C (OR) 151 6 7 8 N E U BOYET+ DEPOLARIZATION
H: G ? Y D I P P ELASTIC EXPT -PBOG NDG DOE-NDC-12 1 2 8 4 7 8 LAS DODDER+R-IATRX ANAL.NDG.TBP
HE 0 0 4 POLAFIZATION THFO-PROG NDG DOE-NDC-12 1 2 8 4 7 8 LAS DODDEB+R-UATRX AUAL.CALC.TBP
I1 C06 EVALURTION EVAL-PROG 1 0 - 5 2 C + 7 DOE-NDC-12 1 3 0 4 1 8 LAS HALEtEVAL FOR PNDF/B-P.RDG
L 1 C 0 6 TOTAL EXPT-PROG 1015 7 0 1 5 INDCIEUR) 11 35 3 7 8 GEL KNITTER+VDG TOP l E A S l
L 1 C 0 6 ELASTIC SCAT EXPT-P%OG 1 0 + 5 7 C t 5 I N D C ( E U R ) l l 3 5 3 7 8 GEL KNITTER+OBTAINED BY INTEGER OF DEL
L 1 OC6 D I P P ZLASTIC EXPT-PROG 1 0 + 5 7 0 + 5 INDC(EUK) l 1 3 5 3 7 8 GEL KNITTER+VDG TOP HEASD
L 1 OC6 N , E I I S S I O N BXPT-PROG 6 0 + 6 1 0 * 7 DOE-NDC-12 1 1 8 4 7 8 LA5 DRAKEtN EMISSION SPEC.CPD ENDP.NDG.
L I CC6 D I P P I N E L R S T THEO-P90G 5 0 + 6 DOE-NDC-12 1 2 9 4 7 8 LAS HALE*90DEG.SIIULATED SPEC.GRPB.
L 1 OC6 N.TE1TON COUP-PROG 1 3 + 2 2 0 + 7 INDC(EU3) l1 4D 3 7 8 GEL YATTECAtlPh.RATI0 TO BlO(N.1)
L 1 @ E 6 N,TRITON EXPT-PROG 2 3 t 4 DOE-NDC-12 1 7 0 4 7 8 IHG ENGDAAL+PRELII CS=.94+-.03B.TBC.
L 1 OC6 N,TEITON EXPT-PROG 2 0 + 6 3 4 + 6 KDK-23 38 4 7 8 DPP ANDERSSOU+
L 1 0 0 7 EVALUATION EVAL-PROG 1 0 - 5 2 0 + 7 DOE-NDC-12 1 3 0 4 7 8 LAS YOUNG+PSEUDO LVL REP.PRELII EVAL.NDG
L 1 G 0 7 N , F I I S S I O N EXPT-PROG 6 0 + 6 1 0 + 7 DOE-XDC-l? l18 4 7 8 LAS DRAKEtN EflISSION SPEC.CPD ENDP.NDG.
L 1 $ 3 7 INELASTIC G EXPT-PBOG 1 0 1 6 2 0 + 7 DOE-NDC-12 2 3 2 4 7 8 OEL RORGAN.TOF.21NGS.NDG.SEE ORNL-TX6247
L 1 C F 7 N . N TRITON BXPT-PROG 2 7 + 6 1 4 + 7 NEANDC(E) 1 9 2 8 6 7 8 AIR UTTLEYt P 6 0 . &BST-TBC.
PE CC9 EVALUATION EVIL-PEOG NDG DOE-NDC-12 1 3 1 4 7 8 LAS YOUNGtPSEUDO LVL REP.NDG.
B 0 1 0 TOTAL COIP-PROG 1 0 + 2 2 0 + 7 INDC(EDB) l1 4 0 3 7 8 GEL YATTYCRnPS. (N.13) + (NXa1) tBXANCS BAT
B 3 1 0 N,ALPHA SVAL-PROG l C + 5 2 0 1 6 INDCIEUR) 11 4 2 3 7 8 GEL L I S K I E N t T B P
B 01C N,ALPHA COUP-PROG l O + 2 2 0 + 7 INDC(EUR) 11 4 0 3 7 8 GEL YATTEClHPS. (N ,A0) t (N ,11 )+BB1NCR RAT
S C1C N,ALPHA EXPT-PROG l o t 2 2 0 + 6 INDC(ELlRl11 4 6 3 7 8 GEL VIESTI IVDG TOP 9 9 1 CURV TBP
S G15 N,ALPSA BXPT-PROG 1 4 1 7 NEANDC(E) 1 9 2 5 4 7 8 TU3 IOERIKE+P.79 D I P P I I R T S1G.TBP
C C 1 2 TOTAL EXPT-PPOG 4 5 + 6 8 0 + 6 NEANDC(F) 1 9 2 5 4 7 8 KPK CIERJACKStP .16 GRPHS,Pl TPP,TRlNS
C 1 2 TOTAL EXPT-PROG 50+5 2 5 t 7 DOE-NDC-12 1 1 0 4 7 8 LRL PHILLIPS+LINAC.TOP.TRNS.UDG.CPD.
C S 1 2 BESON PARAIS EXPT-PROG 4 9 + 6 6 6 t 6 NEANDC(E) 1 9 2 5 4 7 8 KPK CIZRJACKStP .3 2 RES,EN,YTOT
C C 1 2 D I F F ZLRSTIC EVIL-PROG 2 0 1 6 DOE-NDC-12 2 4 8 4 7 8 ORL PUtR-8ATRIX.NDG.TBP ND/1.
N 0 1 4 E,2N ZXPT-PROG 1 4 1 7 1 9 + 7 NEANDC(?) 1 9 2 8 6 7 8 NPL RYVBS* P107.ABST.ACTIVATION.TBD
N 0 1 4 N,ALPHA EXPT-PROG'14+7 NEANDC(E)192 5 4 7 8 TUE IOERIKE+P.79 D I P P t I N C SIG ,TBP
0 C 1 6 TOTAL EXPT-PROG NDG NEANDC(E) 1 9 2 5 4 7 8 KPK CIERJACKStP .1 P0P.TB.TBC.P. 16 GEPBS
0 C 1 6 RESON PARANS EXPT-PROG 3 2 + 6 1 1 + 7 NEANDC(B)192 5 4 7 8 KPK CIERJACKSIP.3 1 0 RES.EB,YTOT
0 C 1 6 BESON PRRAnS EXPT-PROG 7 4 + 6 1 1 + 7 NEhNDC(E) l92 5 4 7 8 KPK CIERJACKS+P.14 T=3/2XES,PRBLIB
F 0 1 9 INELASTIC G EYPT-PROG 1 6 + 7 2 3 t 7 KDK-23 35 4 7 8 B E CORCILCIUCI
P 0 1 9 N.2N EXIT-PROG 1 4 + 7 1 9 t 7 NEANDC(E)192 8 6 7 8 NPL 3YVESt PlC7.1BST.ACTIV.4TION.TBD
P 0 1 9 N.2N EXPT-PROG 1 6 i 7 2 2 + 7 KDK-23 3 5 4 7 8 SUB CORCALCIOCI
P 0 1 9 N.PROTON EXPT-PROG P I S S NEANDCIE) 1 9 2 8 6 7 8 BAR HOOTON* P 7 1 . C P - 2 5 2 P I S S SPECT 1VG
P C19 N,DEUTERON EXPT-PROG 1 6 + 7 2 2 + 7 KDK-23 3 5 4 7 8 SUB CORCALCIUC+
P 0 1 9 N,ALPHA EXPT-PROG P I S S NEANDCIE) 1 9 2 8 6 7 8 HRR HOOTON* P71 . C P - 2 5 2 P I S S SPECT &VG
F C19 N , N PROTON EXPT-PROG 1 6 + 7 2 2 + 7 KDK-23 35 4 7 8 SYR CORCALCIUC+
1 L 0 2 7 D I P F INELAST EXPT-PROG 7 0 1 6 8 0 t 6 KDK-23 33 4 7 8 SYR RAfiSTR00+ TOP 35 TO 1 5 0 DEGREES
AL C27 D I P F INELAST EXPT-PROG 2 0 t 6 4 5 + 6 KDK-23 3 2 4 7 8 SYR RAUSTROiIt
& L C 2 7 SPECT N,GAIT EXPT-PROG 5 9 i 3 DOE-NDC-12 2 9 4 7 8 BNL KENNY1590B EV RES SPEC.G-YIDS.NDG
11 0 2 7 N,PBOTON EXPT-PKOG F I S S !iEANUC(E) 1 9 2 8 6 7 8 HRR HOOTONt P71 . C @ - 2 5 2 P I S S SPZCT &VC
E L e n E N T QUANTITY TYPE ENERGP DOCUNENTATION LAB COHHENTS S A UIN URX REP YOL PAGE DATE ---------------------------------------------------------------------------------------------------.
N.PPOTON EXPT-PROG 1 4 t 7 KDK-23 1 5 4 7 8 LND LUNDBERGt ABS HEASURElENT
N,PROTON EXPT-PPOG 1 5 + 7 DOE-NDC-l2 1 0 5 4 7 8 LRL H A I G H T + ( N , X P j . C S TBL.NAG QUAD S P E C .
N,PEOTON EXPT-PROG l 4 + 7 1 9 * 7 N E A N D C ( E ) 1 9 2 8 6 7 8 NPL RYVES+ P107.ABST.ACTIVATION.TBD
N,DEUTERON EXPT-PBOG 1 5 + 7 D O E - N M - l 2 1 0 5 4 7 8 L R L H A I G H T + ( N , X P ) . C S TBL.IAG QUAD SPEC.
N,ALPHA EXPT-PROG 1 4 + 7 KDK-23 1 5 4 7 8 LND LUNDBERG* ABS I I A S I J R E I E N T
N,ALPHA EXPT-PROG 1 5 + 7 DOE-NDC-l2 1 0 5 4 7 8 LRL H A I G H T t ( N , X A j C S TBL.HAG QUAD S P E C
N,ALPHA EXPT-PROG 1 4 t 7 1 9 t 7 NEANDC(E) 1 9 2 8 6 7 8 NPL RYVES* P107.ABST.ACTIVATION.TBD
N . ALPHA EXPT-PROG P I S S N E A N D C ( E j 1 9 2 5 4 7 8 P T B MANNHAET.P.84 AVG S I G CPD CALC
RESON PARAMS EXPT-PROG 1 2 + 6 1 3 t 6 N E A N D C ( E j l 9 2 5 4 7 8 KPK C I E B J A C K S t P . 1 4 ABST
D I P F I R S L R S T EXPT-PBOG 2 5 + 6 4 2 + b DOE-NDC-12 156 4 7 8 L T 1 E G A N t 1 7 8 0 K E V STATE FROM DNG.CFD.NDG.
I N E L A S T I C G EXPT-PROG 2 0 + 6 4 2 + 6 DOE-NDC-l2 1 5 6 4 7 8 L T 1 E G A l t l 2 5 0 E G CS.DIN PROU DNG.NDG.
T H E R n R L SCAT EXPT-PROG 51-6 5 2 + 0 N E R N D C ( E ) 1 9 2 5 4 7 8 BUN KOESTER+P.78 COB SCAT LENGTR
N . PSOTON EXPT-PROG P I S S NEANDC(Fj 1 9 2 8 6 7 8 RAP HOOTON+ P 7 1 . C P - 2 5 2 P I S S S P E C T AV0
S1 0 2 9 T H E S I A L SCAT EYPT-PROG 51-6 5 2 + 0 N E L N D C ( E j l 9 2 5 4 7 8 HUN KOESTXR+P.78 C o n S C h T LENGTR
S1 C 3 0 THERMAL SCAT EXPT-PROG 51-6 5 2 + O N E A N D C ( E ) 1 9 2 5 4 7 8 HUN KOESTER+P.78 COH SCAT LENGTB
P C3C N, ILPHA EXPT-PPOG NOG DOE-NDC-l2 95 4 7 8 KTY PLYNN+INY.DETAILED BAL%BCE.NDG.
S 0 3 2 THERMAL SCAT EXPT-PROG 5 1 - 6 5 2 + 0 N E A N D C ( E ) ~ ~ ~ 5 4 7 8 I O N K O E S T E R t P . 7 8 COH SCAT L E l G T E
S 0 3 2 N,ALPHR LXPT-PROG NDG DOE-UDC-12 95 4 7 8 KTY PLYNN+INV.DBTAILED BALANCE.NDG.
S 0 3 3 THEPMAL SCAT EXPT-PROG 5 1 - 6 5 2 + 0 NEANDC(Lj1'32 5 4 7 8 BUN K O E S T E R t P . 7 8 CO8 SCAT LENGTR
S G 3 3 N,ALPBA EXPT-PROG l o t 4 8 0 + 5 DOE-NDC-12 95 4 7 8 KTY FLYNN+INV.DETAILBC BLLIUCE.GBP6
S C 3 4 T H E P E A L SCAT EXPT-PROG 51-6 5 2 + 0 N E A N D C ( E ) 1 9 2 5 4 7 8 ION K O E S T L R t P . 7 8 COH SCAT LKUGTU
CA C 4 0 N,GACIA EXPT-PROG 2 5 + 6 7 0 + 6 KDK-23 3 9 4 7 8 U P P BERGQVIS'T*
CA C 4 0 N,ALPHA EXPT-PROG P I S S N E A N D C ( F ) 1 9 2 5 4 7 8 J U L Q A I I . P . 4 1 NDG,ABST
S C 0 4 5 TOTAL EXPT-PROG NDG DOE-NDC-12 3 0 4 7 8 BNL LIOU+ANAL COHPLETED.NDG.TBP
T I N,PROTON EXPT-PROG 1 5 + 7 DOE-NDC-12 1 0 5 U78 LRL H A I G H T t ( N , I P ) .CS TBL.FROI ISOTOPES.
T T N.DEUTXI0N EXPT-PROG 1 5 t 7 DOE-NDC-12 1 0 5 4 7 8 LRL HAIGHT+(N,XP) .CS TBL.FROI ISOTOPES.
T I N,ALPHA EXPT-PROG 1 5 + 7 DOE-NDC-12 1 0 5 U78 LBL H A I G H T + ( N , I A j CS TBL.PROI I S O T O P E S
T 1 C 4 6 N.GANI.4 EXPT-PROG 1 0 1 3 l o t 5 NEANDC(E) 1 9 2 8 6 7 8 HAR THOU* PUO. LARGE L I P S C I N . r L D GBPR.
T I 0 4 6 N,PPOTON BXPT-PROG 1 5 + 7 DOE-NDC-l2 1 0 5 9 7 8 LRL HAIGHT+(N,XP) .CS TBL.IAG QUAD SPEC.
T 1 0 4 6 N,PBOTON EXPT-PROG P I S S N E A N D C ( E j 1 9 2 5 4 7 8 PTB BANNHART.P.84 AV8 S I G C I D CALC
T 1 0 4 6 N-DEUTERON EXPT-PROG 1 5 + 7 DOE-NDC-l2 1 0 5 4 7 8 LRL H A I G H T + ( N , X P j . C S TBL.IAG QUAD SPEC.
T 1 0 4 6 N,ALPHA EXPT-PROG 1 5 + 7 DOE-NDC-12 1 0 5 4 7 8 LRL HAIGHT+(N,XA) C S TBL.IAG QUAD S P E C
T T 0 4 7 N,GAHIA EXPT-PROG 1 0 + 3 1 0 * 5 N E A N D C ( E j 1 9 2 8 678 BAR THOH* PUO. LARGE L I P S C I N - Y L D GRPR.
T T 0 4 7 N,PFOTON EXPT-PROG F I S S NEANDC(E) 1 9 2 5 4 7 8 PTB IANNHART.P.84 AVG STG CPD CALC
T 1 0 4 8 N,GABHA EXPT-PROG 1 0 + 3 l o t 5 N E A N D C ( E j 1 9 2 8 6 7 8 HAR T H O I t P4D. LARGE L I P SCIN.TLD GRPB
T 1 0 4 8 N,PROTON EXPT-PROG 15 .7 DOE-NDC-12 1 0 5 4 7 8 LRL H A I G H T + ( N , X P ) . C S TBL.MAG QUAD S P E C .
T I 0 4 8 N,PROTON EXPT-PROG P I S S N E A N D C ( E j l Y 2 5 4 7 8 PTB nANNHART.P.84 AVG S I C CPD CALC
T T 0 4 8 N,DEUTERON EXPT-PROG 15 i7 DOE-NDC-12 1 0 5 4 7 8 LRL HAIGHT+(N,XP) .CS TBL.IAG QUAD SPEC.
T I 0 4 8 N,ALPHA EXPT-PROG 1 5 + 7 DOE-NDC-12 l 0 5 4 7 8 LRL HAIGHTt(N,XA) CS TBL.HAG QUAD S P E C
T T 0 4 9 N,GAfiUA EXPT-PRO8 1 0 1 3 1 0 + 5 N E A N D C ( E ) 1 9 2 8 6 7 8 HAR THOU* P 4 0 . LARGE L I P S C I N + Y L D GRPR.
ELEilYNT QUANTITY T Y P E ENERGY DOCUMENTATION LAB COIliiENTS S A NIN I A X REF VOL PAGE DATE
T I 0 5 0 N,GAHBA EXPT-PROG l o t 3 1 0 + 5 NEANDC(E) 1 9 2 8 6 7 8 HAR T H O n t P 4 0 . LARGE L I P SC1N.UDG
V 0 5 1 D I F P I N S L A S T EXPT-PROG 2 0 + 6 4 5 t 6 XDK-23 33 4 7 8 AE RAHSTR04.
V 0 5 1 D I P P I N E L A S T EXPT-PROG 7 0 + 6 8 0 + 6 KDK-23 3 3 4 7 8 SWR R A n S T R O n t T O P 35 TO 1 5 0 DEGREES
V 3 5 1 N,PROTON EXPT-PROG 1 5 t 7 DOE-NDC-12 1 0 5 9 7 8 L R L RAIGHT+(N,XP) . C S THL.THP P V C .
V C 5 1 N,DEUTERON EXPT-PROG 15t7 DOE-NDC-12 1 0 5 4 7 8 L P L H A I G H T t ( N , X P ) .CS TBL.TBP PB/C.
V 0 5 1 N,ALPHA EXPT-PROG 1 5 i 7 DOE-UDC-12 1 0 5 4 7 8 LRL HAIGHT+(N,XA) C S TBL.TBP PR/C.
EVALUATION EVAL-PROG NDG N E A N D C ( E ) l S 2 5 4 7 8 KFK PROEHNBR.P.34 KEDAK EVL, NDG
I N E L A S T I C G EXPT-PROG 8 4 + 5 U O t 6 DOE-NDC-l2 1 5 7 4 7 8 L T 1 COUCHELL+l25DBG PROD CS.NDG.THP USE.
THSRfiAL SCAT EXPT-PROG 51-6 5 2 + C NEANDC(E) 1 9 2 5 4 7 8 BUN KOESTER1P.77 COH SCAT LENGTB
N. ALPHA EXPT-PROG 1 4 + 7 NEANDC(E) 1 9 2 8 6 7 8 HIR COOKSONI P 6 1 . TBD.NDG.
D I F P I N E L A S T EXPT-PSOG 8 4 + 5 4 0 + 6 DO?-NDC-12 157 4 7 8 L T 1 COVCHSLL+DIN PROH DNG.NDG.TBP
I N E L A S T I C G EXPT-PROG 8?+5 1 4 + 7 NEANDC(E) 1 9 2 5 4 7 8 KPK V O S S i P . 6 781XEV G M , UDG
I N E L R S T I C G EXPT-PPOC 8 4 + 5 9 O + 6 DOE-NDC-12 1 5 7 4 7 8 L T 1 COUCdELL+NBT CR.DIN P R O 8 DNG.LVL S C E
THEKKAL SCAT EXPT-PROG 5 1 - 6 5 2 * 0 N E A N D C ( E ) 1 9 2 5 4 7 8 ION K O E S T E R t P . 7 7 C o d SCAT LENGTH
N. PROTON EXPT-PROG 1 5 + 7 DOE-NDC-12 1 0 5 4 7 8 LRL HAIGHT+(N,XP) .QUAD SPEC.AN1L TBD.NDG
N,DEUTEPON EXPT-PROG 1 5 + 7 DOE-NDC-l2 1 0 5 4 7 8 L R L HAIGHT+(N,XD) .QUAD SPEC.ANAL TBDIBDG
N,ALPHA EXPT-PROG 1 5 + 7 DOE-NDC-l2 1 0 5 4 7 8 LRL H A I G H T t ( N , X A ) . Q U A D SPEC.ANIL THD.NDG
D I P P I N E L A S T EXPT-PROG 8 4 + 5 4 0 + 6 DOE-NDC-12 1 5 7 4 7 8 L T 1 COUCHELLtDIN PRO6 DNG.CUBV.CPD.TBP
I N E L A S T I C G EXPT-PFOG 1 5 + 6 1 4 + 7 NEANDC(E) 1 9 2 5 4 7 8 KPK V O S S + P . 6 143UKEV GAH,SIG,GBPE
I N E L A S T I C G EXPT-PROG 8 4 + 5 4 0 t 6 DOE-NDC-12 1 5 7 4 7 8 L T 1 COUCHELLtNAT CR.DIN P R O 8 DNG.LVL SCH
THERNAL SCAT EXPT-PROG 5 1 - 6 5 2 + 0 NEANDCIE) 1 9 2 5 4 7 8 RUN KOESTER+P.77 COH SCAT LBNGTB
N.?AOTON EXPT-PROG 1 5 + 7 DOE-NDC-12 1 0 5 4 7 8 LRL R A I G H T + ( N , X P ) .QUAD SPEC.ANAL TBD,BDG
N.DEUT?RON EXPT-PROG 1 5 + 7 DOE-NDC-12 1 0 5 4 7 8 LRL HAIGHT+(N,XD) .QUAD S P E C . I N I L TBD.UDG
N,AL?HR EXPT-PROG 1 5 + 7 DOE-NDC-12 1 0 5 4 7 8 LRL BLIGHT+ (N,PA) .QUAD S P E C . A N I L THD.UDG
D I P P I N E L A S T EXPT-PROG 8 4 1 5 4 3 + 6 DOE-NDC-12 1 5 7 4 7 8 L T 1 COUCHELL+DIN PROM DNG.NDG.TBP
I N E L A S T I C G EXPT-PROG 8 4 + 5 4 0 + 6 DOE-NDC-l2 157 4 7 8 L T 1 COUCHELLINAT CR.DIN PROP, DNG-LVL SCH
THERRAL SCAT EXPT-PROG 5 1 - 6 52.0 N E A N D C ( E ) 1 9 2 5 4 7 8 SUN K O E S T E B t P . 7 7 COB SCAT LERGTE
D I P ? I N E L A S T EXPT-PROG 8 4 + 5 U O t 6 DOE-NDC-12 1 5 7 4 7 8 L T 1 COUCHELLIDIN PROU DNG.NDG.TBP
I N E L A S T I C G EXPT-PROG 8 4 + 5 4 0 + 6 DOE-NDC-12 157 4 7 8 L T 1 COUCHELLINAT CR.DIN P R O 8 DNG.LVL SCR
THERHAL SCAT EXPT-PROG 5 1 - 6 5 2 t O NEANDC(E) 1 9 2 5 4 7 8 BUN K O E S T E R t P . 7 7 COH SCAT LEBGTU
N,GARnA EXPT-PROG P I L E NEANDC(E) 1 9 2 5 4 7 8 KLN B O E L Y L E t P . 6 7 T 1 / 2 O P 1353
D I P Y INELAST EXPT-PROG 2 C + 6 4 5 + 6 KDK-23 3 3 4 7 8 LE RAUSTROB.
N,GAURA EXPT-PROG 15t7 KUK-23 1 3 4 7 8 LND I R G N U S S O N t ACT.TECHNIQUE
S P E C T N,GAIT EXTr-PROG 2 5 - 2 DOE-NDC-12 3 4 4 7 8 HNL STELTSILOW S P I N STATES.THC.BDG
S P E C T N,GAnT EXPT-PROG 2 0 + 3 2 4 t 4 DOE-NDC-12 3 4 4 7 8 HNL STELTS+LOY S P I N STATES.TRC.NDG-2ES
EVALUATION EVAL-PROG NDG NEANDC(E) 1 9 2 5 478 KPX PR0EHNEB.P. 3U KEDAR EVL, NDG
TOTAL EXPT-PROG 1 0 + 4 1 0 1 7 N E A N D C ( E l 1 9 2 8 6 7 8 HAR HOXONI R E F I T RESONANCE ANALYS1S.SINC
D I P P E L A S T I C EXPT-PROG 7 0 t 6 KDK-23 3 4 U 7 8 i E R A I S T R O I * TOP 2 0 TO 1 7 4 DEGREES
D I P P E L A S T I C EXPT-PROG l o t 3 3 0 + 5 I N D C ( E O R ) l l 1 5 3 7 8 GEL HRUSEGANtLINAC T O P BEASB
D I P P E L A S T I C EKPT-PROG 4 9 + 5 3 1 + 6 NEANDC(E) 1 9 2 5 9 7 8 KPK C I E R J A C K S * P.P.SIG,CURVES.
ELEl iENT QUANTITY T Y P E ZNERGY DOCUUENTLTION LAB CONMENTS S A f l I N MIX REP VOL PAGE DATE
F E 0 5 6
F E C 5 6
F E C 5 6
F': C 5 6
F ? C 5 6
F E C 5 6
P? 2 5 6
F E 0 5 6
F: C 5 6
F ? C 5 6
P E 5 5 6
€ 5 C 5 6
F ? C 5 6
P E C 5 6
----------------------------------------------------------------------------------------<----
POLARIZATION EXPT-PROG 1 6 + 7 NEANDC(Ej 1 9 2 8 678 EDG GALLOYAY* P121 .GRAPHS CPD OPTIDL.
D I F P I N E L A S T EXPT-PROG 8 7 + 5 4 0 1 6 DOE-NDC-l2 1 5 7 4 7 8 L T 1 COUCHELL+DIN PRON DNG.CPD.NDG
I N E L A S T I C G EXPT-PROG 8 7 + 5 4 C t 6 DOE-NDC-l2 1 5 7 4 7 8 L T 1 C O U C H E L L + 1 2 5 DEG CS.DIN PROM DUG.NDG
N,GANtlL EKPT-PROG 15t5 89t5 NEANDCIE) 1 9 2 B 678 HAR G A l T R E R I P 3 8 . I L D AT 3 THICKUESSES.
N,PROTON EXPT-PROG 1 5 + 7 DOE-NDC-12 1 0 5 4 7 8 LRL HAIGHTI (N,XP) . C S TBL.TBP.
N,DEUTERON EXPT-PROG 1 5 + 7 COE-NDC-12 1 0 5 4 7 8 LRL HAIGHT+(N,XP) ,CS TBL.IAG QOAD SPEC.
N. ALPHA EXPT-PKOG 1 4 + 7 NEANDC(E) 1 9 2 8 6 7 8 BAR COOKSON* P 6 1 . TBD.NDG.
N. ALPHA EXPT-PROG 1 5 + 7 DOE-NDC-l2 1 0 5 4 7 8 LRL HAIGHT*(N,XA) C S TEL. NAG QUAD SPEC.
RESON PAPLKS EXPT-PROG 7 8 t 3 9 9 + U N E A N D C ( E j l 9 2 8 6 7 8 BAR IOXON* P 5 l . T B L L.J.YN.PR01 SYNC T B I N
N.2N EXPT-PROG 1 4 t 7 19'7 N E A N D C ( E ) 1 9 2 8 678 NPL RYVESI P 1 0 7 . A B i T . T B P I N NETROLOGIA
N,GAnWA EXPT-PROG 5 0 t 2 6 0 6 I N D C ( E O R j 1 1 1 5 3 7 8 GEL BRUSEGAN+LINAC TOP N E A S l
N. PROTON EXPT-PROG 1 5 + 7 DOE-NDC-12 1 0 5 4 7 8 L P L HAIGHT*(N,XP) .CS TBL.NAG ROAD SPEC.
R,PROTON EXPT-PROG F I S S N E A N D C ( E j 1 9 2 5 4 7 8 PTB IANNBART.P.84 AVG S I G CFD CALC
H.DEUTE90N SXPT-PBOG 15t7 DOE-NDC-12 1 0 5 4 7 8 LRL H A I G H T t ( N , X P ) .CS TBL.NAG QOlD S P E C
N.ALPHA EXPT-PROG 1 5 + 7 DOE-NDC-12 1 0 5 4 7 8 LRL HAIGHT+(N,XA) CS TBL.LIAG QOAD SPEC.
TOTAL EXPT-PROG 1 2 t 3 I N D C ( E O R j l 1 1 5 3 7 8 GEL BRUSEGANILINAC T O P I E A S L
RESON PAPAMS EXPT-PROG 1 2 t 3 I N D C ( E 0 R ) l 1 15 3 7 8 GEL BBUSEGAN+LINAC TOP NEASS
R F S 0 9 PARAMS EYPT-PROG - 3 + 4 2 2 + 5 NEANDC(F) 1 9 2 8 678 BAR .!OX08+ P 5 1 . T B L L,J,YN.PBON SYNC T R l N
PESON P A F A l S SXPT-PROG 4 5 t 5 8 3 + 5 KEANDC(E) 1 9 2 5 U 7 8 KFK C I E R J A C K S + P . 9 5 9 RESOU,TBL
C I F F I N E L R S T SXPT-PROG 7 5 + 6 8 6 + 6 N E A N D C ( E j 1 9 2 5 4 7 8 KFK B B O I D E R S + P . 3 6 GRPH,TBC
D I ? ? INELAST EXPT-PROG 1 6 + 7 2 2 1 7 KDK-23 3 5 4 7 8 SYR CORCILCIOC*
N,2N EXPT-PROG 1 6 + 7 2 2 t 7 KDK-23 3 5 4 7 8 SUE CORCALCIUC*
N,GAIBA EXPT-PROG 5 0 1 2 6 C t 5 INDC(BUR1 l1 15 3 7 8 GEL BRUS?GANtLINAC T O f l E l S N
S P F C T N,GAHT EXPT-PSOG 1 2 + 3 DOE-NDC-12 2 9 4 7 8 BNL K E N N Y t 1 1 6 7 EV E2S.G-Y1D.CPD.UDG.
N.PBOTON EXPT-PROG 1 5 + 7 DOE-NDC-l2 1 0 5 4 7 8 LRL H A I G H T t ( N , X P ) . C S TBL.UAG QUAD S P E C
N. PROTON EXPT-PROG 1 4 + 7 1 9 + 7 I I E L N D C ( E ) 1 9 2 B 678 NPL E Y V E S t P 1 0 7 . L B S T . T B P SH I IETROLOGII
N,PROTON EXPT-PROG F I S S N E A N D C ( E l 1 9 2 5 4 7 8 PTB NANNHART.P.84 110 S I G C P D CALC
N.DEUTEP.011 EXPI-PROG 1 5 + 7 DOE-NDC-12 1 0 5 4 7 8 LRL HAIGHT+(N,XP) .CS TBL.NAG QUAD S P E C
N,DEIITCRON EXPT-PROG 1 6 + 7 2 2 + 7 KDK-23 3 5 4 7 8 SYE CORCALCIOCI
N,ALPHR EXPT-PBOG 15t7 DOE-NDC-12 1 0 5 4 7 8 LRL HAIGHT+(N,XA) C S TEL. NAG QUAD SPEC.
N.N PROTON EXPT-PROG 1 6 + 7 2 2 + 7 KDK-23 3 5 4 7 8 SUB C O R C I L C I U C +
RESON PLPAUS EXPT-PROG 4 0 + 3 b 2 + 3 NEANDC(E) 1 9 2 8 678 HAR nOXONt P 5 1 . T B L L,J,YN.PRO& S I I C TRAR
N.N PROTON EXPT-PROG 1 5 + 7 NEANDC(Ej 1 9 2 5 4 7 8 J U L Q A I I t P . 4 1 ACT SIG,NDG,ABSX
RESON P A P A l S EXPI-PROG 1 0 + 4 3 2 t 5 N E A N D C ( E j l 9 2 5 4 7 8 KYK L Y D I B O N G I P . 1 8 YN,UG,TBL
N.GA8PIL EXPT-PROG 3 0 + 4 NEPNDC(E) 1 9 2 5 4 7 8 KPK i .YDIHONGrP.18 EAXW AVG S I G
DLPP E L L S T I C EXPT-PROG 7 0 6 8 0 6 XDK-23 3'4 4 7 8 AE RAISTRON4 TOP 2 0 TO 1 7 4 DBGBKES
D I F F I N E L A S T EXPT-PROG 2 0 + 6 4 5 + 6 KDK-23 3 2 U 7 8 AE RAISTRON.
D I F F I N E L A S T EXPT-PROG 1 1 6 3 3 + 6 DOE-NDC-12 1 6 0 4 7 8 L T 1 E G A N t D I N PROM DNG.CURVS.CPD.TBP
O I F P I N E L L S T EXPT-PROG 1 6 + 7 2 2 + 7 KDK-23 3 5 4 7 8 S E R CORCALCIUC*
I N E L A S T I C G EXPT-PROG l l t 6 3 3 + 6 DOE-NDC-12 1 6 0 4 7 8 L T 1 E G A N t D I N PRON DNG.CURVS.CPD.TBP
~ , 2 n EXPT-PROG 1 6 + 7 2 2 t 7 KDK-23 35 4 7 8 SYR CORCALCIUCI
E L I B B N T QUANTITY T Y P E E l E P G Y DOCUMENTATION LAD CONHENTS S A M I N HAX REF VOL PAGE DATE
N,DEUTERON EXPT-PROG 1 6 t 7 2 2 t 7 KDK-23 3 5 4 7 8 SYR CORCALCIUC+
N , N PROTON EXPT-PROG 15t7 NEANDC(E) 1 9 2 5 4 7 8 J U L Q A I H t P . U l ACT S I G , N D G , I B S T
N,N PROTON EXPT-PROG 1 6 + 7 2 2 1 7 KDK-23 3 5 4 7 8 SWR CORCALCIUC+
EVALUATION EVAL-PKOG NDG NEANDC(E) 1 9 2 5 4 7 8 KPK FROEHNZR.P.34 KEUAK EVL, NOG
I N E L A S T I C G BXPT-PRCG 1 4 + 6 4 2 * 6 DOE-ND2-12 1 6 4 4 7 8 L T 1 MITTLER+DIN FROn UNG.BDG.TBPD
Y,GAHBA EXPT-PROG 15.5 8 0 + 5 N E A N D C ( E ) 1 9 2 8 678 HAR GRYTHERI P 3 8 . Y I D AT 3 THICKNESSES.
N. PROTON EXPT-PROG 1 2 + 6 40t6 INDC(EQB) 11 8 378 GEL PAULSEN+NP+NA D I E PART DETECT P B E L T n
N,PROTON EXPT-PROG 1 5 + 7 DOE-NDC-12 l C 5 4 7 8 LRL HAIGHT+(N,XP) .CS TBL.TBP
N,DEUTERON SXPP-PROG 1 5 + 7 DOE-NDC-12 1 0 5 4 7 8 LRL HAIGBTt (N,XP) , C S TBL. T B P
N,ALPHA EXPT-PROG 1 4 + 7 NEANDC(E) 1 9 2 8 678 HAR COOKSONt P 6 1 . TBD-NDG.
N . ALPHA EXPT-PROG 15t7 DOE-NDC-12 1 0 5 4 7 8 LRL HAIGHT+(N,XA) C S TBL.TBP
RESON PARAHS EXPT-PROG 2 0 t 4 3 0 + 5 N E I N D C ( E ) 1 9 2 8 678 HAR BOUEN* P 5 4 . S-L AREA ANAL.P+D YAVES.
RESON PAPAES EXPT-PROG 2 0 + 4 1 0 * 6 NEANDC(E) 1 9 2 8 678 HAS GADDI P 5 5 . U-L R-IATRIX A N A L l S I S .
D I F F I N 3 L A S T EXPT-PROG 1 4 + 6 4 2 * 6 DOE-NDC-l2 1 6 4 4 7 8 L T 1 B I T T L E R t D I N PROH DNG.CURVS.CPD.TBP
I N E L A S T I C G EXPT-PROG 1 5 + 6 1 U + 7 N E A N D C ( E ) 1 9 2 5 4 7 8 KFK V O S S t P . 6 2 GAM-LINES,NDG
I N E L A S T I C G EXPT-PBOG TB 4 2 + 6 DOE-NDC-12 1 6 4 4 7 8 L T 1 H I T T L E R t N A T U 1 , D I N P R O 8 DNG.LVL SCB.
8,GAMLIA EXPT-PROG 2 5 t 6 7 0 1 6 KDK-23 3 9 4 7 8 OPP B E R G Q P I S T I
N. PROTON EXPT-PROG 1 5 + 7 DOE-NDC-l2 1 0 5 4 7 8 L R L HAIGHT+(N,XP) .CS TBL. IAG QUAD S P E C
h ,PPOTON EXPT-PROG P I S S NEANDC(E1 1 9 2 5 4 7 8 P T 8 ilANNHART.P.84 AVG S I G CPD CALC
N.DEUTEPON EXPT-PROG 1 5 + 7 DOE-NDC-12 1 0 5 4 7 8 LRL HAIGHT+(B.XP).CS T8L.BAG QUAD S P E C
N . ALPHA EXPT-PBOG 1 5 + 7 DOE-NDC-12 1 0 5 4 7 8 L R L AAIGt lT+(N,XR) C S T B L . I I G QUAD SPEC.
N , N PROTON EXPT-PROG 1 5 + 7 N E A N D C ( E ) 1 9 2 5 4 7 8 JUL QAIi¶+P.Ul ACT SIG,NDG,ABST
N,GAflHA EXPT-PROG 2 5 - 2 DOE-6DC-12 2 3 1 U 7 8 ORL BAPVEP+IASS ANAL.CO3RC.THR C S GVI.
N,PROTON EXPT-PROG NDG DOE-NDC-l2 9 5 4 7 8 KTP PLYNN+INV.DETAILED 8ALANCP.NDG.TBD
N,RLPHA EXPT-PPOG NDG DOE-NDC-12 9 5 4 7 8 KTY PLYNN+INV.DETAILED 8ALINCE.NDG.TBD
RESON PAEAMS EXPT-PROG 2 0 + 4 l o t 6 N E A N D C ( E ) 1 9 2 8 6 7 8 BAR GADD* P 5 5 . H-L R-MATRIX A N I L Z S I S .
D I F F INELAST EXPT-PROG 1 4 ' 6 4 2 t 6 DOE-NOC-12 1 6 4 4 7 8 L T 1 H I T T L E R t D I N PROM DNG.CURVS.CFD.TBP
I N F L A S T I C G EXPT-PROG 1 4 t 6 1 4 + 7 N l A N D C ( E ) 1 9 2 5 4 7 8 KFK V O S S + P . 6 4 GAI-LXNES.NDG
I N E L A S T I C G EXPT-PROG TR 4 2 + 6 DOE-NDC-12 1 6 4 4 7 8 L T 1 H I T T L E R i N A T N1,DIN P B O l DNG.LVL SCE.
N,PROTON EXPT-PROG 1 5 + 7 DOE-NDC-12 1 0 5 U78 L R L H A I G B T t ( N , X P ) . C S TBL.TBP
L,DEUTERON EYFT-PROG 1 5 + 7 COE-NDC-12 105 478 L R L HAIGHT+(N,XP) .CS TBL.ZBP
N. ALPHA EXPT-PROG 15t7 DOE-NDC-12 1 0 5 U78 LRL HIIGHT+(N.XA) C S TBL.IAG Q Q i D SPEC.
N,N PROTON EXPT-PROG 1 5 + 7 NEANDCIE) l92 5 U78 J U L QAIE'P.41 ACT SIG.NDG,ABST
D I F F I N E L A S T EXPT-PROG 1 2 r 6 4 6 1 6 DOP-NDC-12 1 6 4 U 7 8 L T 1 NITTLEBIDIN FROii DNG.CURVS.CPD.TBP
I N E L A S T I C G EXPI-PBOG T B 4 2 + 6 DOE-NDC-l2 1 6 4 4 7 8 L T 1 H I T T L E R ~ N A T N I r D I N FROn DNG.LVL SCE.
N,N PROTON EXPT-PROG 1 5 + 7 NEANDC(E) 1 9 2 5 4 7 8 J Q L QAIH+P.U~ ACT SIG,NDG,IBST
D I F P INELAST EXPT-PROG 1 8 + 6 4 2 1 6 COE-NDC-12 1 6 4 4 7 8 L T 1 ~ I T T L L P A D I N FRO1 DNG.cURVS.CFD.TBP
I N E L A S T I C G EXPT-PROG TR 4 2 1 6 DOE-NDC-12 1 6 4 4 7 8 L T 1 B I T T L E R + I A T N I , ~ I N PROW DNG.LVL SCE.
P O L R F I Z A T I O N EXPT-PROG 1 6 * 7 NIANDC(E) 1 9 2 8 6 7 8 EDG G A L L O Y A Y ~ P ~ ~ ~ . G R A P H s CFD OPTHDL.
N,PROTON EXPT-PROG 1 5 + 7 D O E - N D C - ~ ~ 1 0 5 4 7 8 LRL HIIGHT+(N.XP) .CS TBL.PBO" ISOTOPES.
N-ALPHA EXPT-PROG 1 5 + 7 DOE-NDC-12 1 0 5 4 7 8 LBL HAIGHT* (N.X&) C S T B L . F ~ O ~ ISOTOPES.
C11 0 6 3
CU C 6 3
CU C 6 3
CU C 6 3
CU 5 6 3
CU C 6 5
CU 0 6 5
CU C65
CU C 6 5
CU 0 6 5
CU 3 6 5
CU ? 6 5
Z C 5 6 4
KB
KR C 8 4
s R
SS 0 8 8
Y 8 9
Y 1 8 9
Y C 8 9
Y C 8 9
2'1 i 9 1
Z?. C 9 2
23 0 9 4
Z? C 9 6
NB C 9 3
NB C 9 3
1;B 0 9 3
NB 0 9 3
K B C 9 3
T C G 9 9
PH 1 C 3
PD 1 0 8
CD 1 0 8
I N
I N 1 1 3
I N 1 1 5
I N 1 1 5
IN 1 1 5
I N 1 1 5
QUANTITY T Y P E ENERGY DOCUHEl4TATION LAB COMIENTS I I N RAY REF VOL PAGE DATE .............................................................................................
D I F F I N E L A S T EXPT-PROG 2 0 1 6 4 5 + 6 KDK-23 3 2 4 7 8 SUB R A I S T S O I .
N.2N EXPT-PROG 1 4 t 7 1 9 + 7 NE!xNDC(E)192 8 6 7 8 NPL RYVES* PlO7.ABST.TBP I N RETBOLOGII
N,PKOTON EXPT-PROG 1 5 t 7 DOE-NDC-l2 1 9 5 4 7 8 LRL H A I G H T + ( N , X P ) . C S ? B L . I A G QUAD SPEC.
B,DFUTERON EXPT-PIOG 1 5 + 7 DOE-NDC-l2 l 0 5 4 7 8 LRL HAIGHT+(N,XP) .CS TBL.nAG QUID SPEC.
N . ALPHA EXPT-PROG 1 5 + 7 DOE-NDC-12 1 0 5 9 7 8 LRL HRIGHT+(N.XA) C S TBL.RAG QUAD S P E C .
D I F F I N E L A S T EXPT-PROG 2 0 + 6 4 5 + 6 KDE-23 3 2 4 7 8 SWR RANSTROI.
N.2N EXPT-PSOG 1 4 r 7 1 9 + 7 N E A N D C ( E ) 1 9 2 8 6 7 8 NPL R r V E S t P107.ABST.TBP I N RETBOLOGIL
N. PROTON EXPT-PROG 1 5 + 7 DOF-NDC-l2 1 0 5 4 7 8 LRL HAIGHT* (N,XP) .CS TEL. HAG QUAD SPEC.
W,PROTOh EXPT-PROG 1 4 t 7 1 9 + 7 NEANDC(E1 1 9 2 8 6 7 8 NPL RFVES* P107 .ABST.TBP I N I E T R O L O G I I
N,DEUTEBON EXPT-PROG 1 5 + 7 DOE-NDC-l2 1 0 5 4 7 8 LRL RAIGHT* 1N.XP) .CS I B L . I A G QUAD SPEC.
N,ALPHA EXPT-PROG 1 5 + 7 DOE-NDC-l2 1 0 5 4 7 8 LRL HAIGHTI (N.XI) CS TBL.HAG QUID SPEC.
N,N ALPHA EXPT-PBOG 1 4 + 7 1 9 + 7 N E A N D C ( E ) 1 9 2 8 6 7 8 NPL RYVSS* P l C 7 . A B S T . T B P I N HETROLOGII
NI PROTON EXPT-PROG P I S S N E I N D C ( E ) 1 9 2 5 4 7 8 PTB mANNHART.P.BU AVG S I G CFD C I L C
N,GAH.%A EXPT-PROG 1 0 t 3 + 5 NEANDC(E1 1 9 2 5 4 7 8 KPK HEHSLEY*P.30 TOP SPEC,GRPR,TBC
N , G A I I A EXPT-PROG 1 0 1 3 + S N E A N D C ( E j l 9 2 5 4 7 8 KPK H 3 N S L E F t P . 3 0 NDG,TBC
N.GAMUP. EXPT-PROG BAXU KDK-23 9 0 978 UPP B E R G Q V I S T I ANG.DISTB.OP G A I l I S
D I F F E L A S T I C EXPT-PROG 1 1 1 7 DOE-NDC-l2 2 2 1 4 7 8 OH0 FINLAY+RNGDIST.5PCT.OPTRDL.NDG.73P.
D I F F I N E L A S T EXPT-PROG 2 0 t h 4 5 + 6 KDK-23 3 2 4 7 8 I E R A I S T R O I .
N,GAHI(A EXPT-PROG 1 4 + 7 + 7 KDK-23 13 4 7 8 LND RAGNUSSONt
N,GAHNA IXPT-PBOG HAXI KDK-23 4 0 4 7 8 U P P BERGQYIST* ANG.DISTR.OF G A I l l S
N,GAUIR EXPT-PROG 6 0 + 6 1 6 + 7 KDK-23 3 9 4 7 8 U P P BERGQVIST*
S P E C T N,GAHT EXPT-PROG 2 3 + 3 2 4 + 4 DOE-NDC-12 2 8 U 7 8 BHL KENNYtSPEC.N BINDING Z S CALC.NDG.
S P E C T N,GAXT EXPT-PROG 2 C + 3 2 4 + 9 DOE-NDC-l2 2 8 4 7 8 BNL KINNYtSPEC.N BINDING E S CALC.IDG.
S P E C T N,GAXT EXPT-PPOG 20'3 2 4 + U DOE-NDC-12 2 8 4 7 8 BNL KEN'IYt5PEC.N BINDING 3s C1LC.NDG.
S P E C T N,GAHT EXPT-PROG 2 C t 3 2 4 t 4 DOE-NDC-12 28 4 7 8 BHL KENNY+SPEC.N BINDING E S CILC.BDG.
N,2N EXPT-PROG 9 0 1 6 1 5 t 7 DOE-NDC-12 1 0 7 4 7 8 L R L NETHAWAYt6EYISION N P l A 1 9 0 P . 6 3 5 . 1 0 6
N.2N EXPT-PROG 1U+7 19+7 DOE-NDC-12 1 0 7 4 7 8 LRL NETqAYAYtREL AL27.NOG.TBP I N J I B .
NIPROTON EXPT-PROG 15 t7 DOZ-NDC-l2 l 0 5 4 7 8 LRL H A I I H T + ( N , X P ) . C S TBL.RAG QUID SPEC.
N , DEUTERON EXPT-PROG 1 5 + 7 DOF-NDC-12 1 3 5 4 7 8 LRL HAIGHT+(N,KP) ,CS TBL.IAG QUAD SPEC.
N . ALPHA EXPT-PROG 1 5 t 7 DOE-NDC-l2 1 0 5 4 7 8 LRL HAIGHT+(N,XA) C S TBL.IAG QUID SPEC.
TOTAL EKPT-PROG 4 5 + 0 2 4 t 1 NEANDC(E1192 5 4 7 8 K I L P R I E S M E Y E R t P . 5 7 TRANS.GBPB
TOTAL EXPT-PROG l O + 5 U 0 1 6 INDCIEUR) 1 1 5 3 7 8 GEL P A U L S E N + R H 1 3 3 1 ACTIV l E I S n
S P E C T N,GAHT EXPT-PROG 2 5 - 2 2 7 + 0 DOE-NDC-12 2 9 4 7 8 BNL C A S T S N t L V L SCHEnE.STROCT.TBC
RESON PRRABS EXP1-PROG 5 4 t 1 1 0 t 3 NEANDC(E) 1 9 2 5 4 7 8 K I L P R I Z S H E P E R + P . 5 7 NDG,TBC
D I F F E L R S T I C EKPT-PROG 7 0 1 6 8 0 1 6 KDK-23 3 Y ~ 1 8 L E ?AHSTPD~?+ TO? 2 0 TO 1 7 4 DEGBESS
TOTAL EXPT-PROG F I S S NELNDC(E) 1 9 2 5 U 7 8 PTB lANNHAAT.P.84 AVG S I G CPD C I L C
T O T A L EXPT-PROG 4 0 , s 4 3 t h I N O C ( E U R ) I I 5 3 7 8 G E L L I S K I E N + I N ~ ~ ~ ~ ACTIV ~ E I S I
TOTAL EXPT-PROG 1 4 + 7 KDK-23 1 5 4 7 8 LND LUNDBZRGI I B s . ~ ~ E A S U R E I B S T
TOTAL EXPT-PBOG P I S S NEANDC(E) 1 9 2 5 U 7 8 PTB IANNHART.P.BU AVG S I C CPD C I L C
N,GAIlRA EXPT-PROG 1 5 t 7 KDK-23 1 3 4 7 8 LND nRGNUSSON+ ACT TECHNIQUE
ELlMENT QUANTITY T Y P E ENEPGY DOCUMENTATION LAB COMRXNTS S A AIN NRX REF VOL PAGE DATE
N.GAO8A EXPT-PROG 2 3 t 4 9 6 t 5 DOE-NUC-l2 1 7 2 U 7 8 I H G GRADYtEXPT TBD.5ES.NDG.
N,GAt!liA EXPT-PKOG F I S S NEANDC(E) 1 9 2 5 4 7 8 P T 8 KANNiIART.P.84 AVG S I G C F D CALC
D I F F E L l S T I C EXPT-PROG l o t 6 DOB-NDC-12 90 4 7 8 KTY HARPERtTOF.14ANG.LEG PIT.CUBV.TBC
D I F F E L A S T I C EXPT-DROG 1 0 + 6 DOE-NDC-12 9 0 4 7 8 KTY llARPERtTOF.1UANG.LEG PIT.CURV.TBC
D I F F E L A S T I C EXPT-PROG 1 0 + 6 DOE-?!DC-12 9 0 4 7 8 KTK HARPER+TOP.14ANG.LEG PIT.CORV.TBC
D I F F E L A S T I C EXPT-PROG l o t 6 DOE-NDC-l2 9 0 4 7 8 KTY HRRPER+TOF.lUANG.LEG P1T.CURV.TBC
D I P F E L A S T I C EXPT-PROG 1 0 1 6 DOE-NDC-12 9 0 4 7 8 KTY HARPERtTOF.14ANG.LBG F1T.CURV.TBC
TOTAL 3XPT-PBOG 2 0 1 1 2 ( + 3 I N D C ( E O 3 ) I 1 1 9 378 GEL ROHR+LINAC TOP n E A S l
RESON PAKAOS LXPT-PROG 2 C + 1 2 0 t 3 INDC(EUR) 11 19 378 GEL ROXR*
STRNTH FNCTN EXPT-PROG 2 0 t l 2 0 + 3 I N D C ( E U E ) l 1 1 9 378 GEL ROHB*
POLARIZATION EXPT-PROG 1 6 * 7 NEANDCIE) 1 9 2 8 6 7 8 EDG GALLOWAY* P l 2 l . G S A P H S CYD OPTIDL.
N,GABBA EXPT-PROG 2 0 t l 5 C + 3 INDC(EUR) 1 1 1 9 3 7 8 GEL ROHX+CAPT*SELF-INDICTN R A T I O R E A S l
N,GAKHR EXPT-PROG 1 5 + 7 KDK-23 1 3 4 7 8 LND IiRGNUSSONt ACT TECHNIQUE
LVL DENSITY EXPT-PROG 2 5 t 1 2 0 1 3 I N D C ( E U R ) l l 1 9 3 7 8 GEL ROHRI
N,ALPHR EXPT-PBOG 1 4 t 7 NEANDCIE) 1 9 2 5 4 7 8 J U L QAIM+P.41 NDG,ABST
TOTAL EXPT-PSOG 2 0 1 3 2 4 + 4 DOE-NDC-l2 l 1 0 4 7 8 L R L CANBRDA.HIGH RSLN TOP.RES ANAL.NDG
RESON PARA8S EXPT-PROG 2 3 + 3 2 4 t 4 DOE-NDC-12 1 1 0 4 7 8 LRL CAIARDA.TENS.RZS BNAL+D GVN L=0.1.
STRNTH FNCTN EXPT-PROG 2 0 1 3 2 4 + 1 DOE-NDC-72 1 1 6 4 7 8 L S L CAUARDA.SO.SI GVN.
N.GAnH.4 EXPT-PROG 60r6 1 6 + 7 KDK-23 39 4 7 8 PP BERGQVIST+
I N E L A S T I C G EXPT-PROG 1 2 1 6 2 0 1 6 KDK-23 3 3 178 SYR TROSTELL*
V , ALPHA EXPT-PSOG 1 4 + 7 NEANDC(E1 1 9 2 5 4 7 8 J U L QAIM.P.41 NDG,ABST
S P E C T N.GAIT SXPT-PROG lAXY DOE-NDC-12 2 8 4 7 8 BNL KENNY+SPEC.t-.ZKEV PBEC1SION.UDG
S P E C T L.GAIT EXPT-PROG 2 0 1 3 2 4 + 4 DOE-NDC-12 2 8 4 7 8 BNL KENNY+SPEC.t- .ZKEV PRECISION.UDG.2ES
D I F F E L A S T I C 3XPT-PROG 2 5 + 6 DOE-NDC-12 9 3 4 7 8 KTY COOPE+CPD SM152.CC CALC.CfJBV.
D I P F E L A S T I C EXPT-PROG 2 5 + 6 DOE-NDC-l2 9 3 4 7 8 KTY C O O P E t C F D S I 1 4 8 . C C CALC.CUBV.
h,ALPHA EXPT-PROG 1 4 + 7 NEANDC(E) 1 9 2 5 4 7 8 J U L Q A I f i . P . 4 1 NDG,IBST
P F S O L P A R A I S EXPT-PPOG + l 1 2 + 3 N E A N D C ( J ) S l U 7 9 7 7 J R E O H K U B ~ + . S ~ E ~ . ~ E - ~ , I G = O . ~ O ~ E V , D = U . ~ ~ ~
N,ALPHA EXPT-PROG 1 4 + 7 NEANDC(E) 1 9 2 5 4 7 8 J U L QAIU.P.41 NDG,RBST
N.GABRA THEO-PROG 1 0 + 3 6 C t 6 DOE-NDC-12 1 3 3 U 7 8 LBS ARTHUR.GNASH CODE C A L L CPD.EXPT.GRPK
h,ALPHA EXPT-PPOG 1 4 + 7 NEANDC(E) 1 9 2 5 4 7 8 JUL QAIH.P.41 NDG,BBST
N.ALPBA EXPT-PROG 1 U + 7 NEANDCIE) 1 9 2 5 4 7 8 J O L Q A I N . P . 4 1 NDGsABST
S P E C T N O G A I T EXPT-PROG NDG DOE-NDC-12 30 4 7 8 BNL C A S T E N + 1 7 2 Y B LVL STROCT STUDY.NDG.
S P E C T N,GAIT FXPT-PROG NDG DOB-NDC-12 3 0 4 7 8 BNL C A S T E N t 1 7 4 Y B LVL STRUCT STUDY-NDG.
N.ALPHA EXPT-PROG 1 4 t 7 NEANDC(E1 1 9 2 5 4 7 8 J U L ~ l I n . P . 4 1 NUG.LBST
POLARIZATION EXPT-PROG 1 6 t 7 NERNDC(E) 1 9 2 8 6 7 8 EDG GALLOWAY* P l 2 l . G R A P H S CPD OPTRDL.
S P E C ? N,GAOT EXPT-PROG 2 0 + 3 2 4 + 4 DOE-NDC-12 2 8 4 7 8 RNL STELTS+SPEC.NUCLEIR 3TRUC.NDG.TBC
S P d C T N,GAUT EXPT-PROG nAXW DOE-NDc-l2 2 8 4 7 8 BNL STELTSiSPEC.NOCLBRR STROC-NDG-TBC
S P E C T N,GAOT EXPT-PROG 2 0 + 3 2 4 t 4 DOE-NDC-12 2 8 4 7 8 BNL STBLTS+SPEC.NUCLEAR STRUC.NDG.TBC
N.GAnMR EXPT-PROG 1 5 + 7 KDK-23 1 3 4 7 8 LND IRGNUSSON+ ACT TECHNIQOB
N,GAiiilA EXPT-PSOG NDG DOE-NDC-l2 30 4 7 8 I L L CRSTEN+TYOFOLD CIPTOBE.CS GVN.
ELECrbT QUANTITY TYPE ENERGY DOCIIUENTATION LAB COIMENTS S R IIN M A X REP VOL PAGE DATE ....................................................................................................
HG
HG 196
PB
P6 2d7
Bi 209
B1 2C9
TH 229
T 9 229
'id 229
TH 229
T H 229
TR 23C
TH 232
TH 232
TH 232
T B 232
TH 232
TH 232
TH 232
TH 232
TH 232
TH 232
PA 231
U
W
U 233
SPECT N,GAUT EXPT-PROG NDG DOE-NDC-12 35 478 ILL CASTENtTkOPOLD CAPTURE.LVL STUDI.NDG
N,GAUUA EXPT-PROG NDG DOE-NDC-12 3C 478 ILL CRSTEN+TYOPOLD CAPTU8E.CS GVU
N,GAUNA THEO-PROG 10+3 60+6 DOE-NDC-l2 133 478 LAS IRTHVR.GNASH CODE CALC.CPD.EXPT.GRPB
SPECT N,GAMT EKPT-PEOG 66-1 10+l DOE-NDC-12 31 478 BNL KRNEtPRINAEY G RAY NEAS.NDG.AIIL TBD
N,GRIHA THEO-PROG 10+3 60th DOE-NDC-12 133 478 LAS IETHUR.GNASH CODE CALC.CPD.EXPT.GRPH
EPECT N,GAnT EXPT-PROG 13*0 91tC COE-NDC-l2 31 478 BNL KANE+PRIIASY G RAP N5AS.UDG.ANAL TBD
SPECT N,GAIT EXPT-PROG NDG DOE-NDC-12 31 478 BUL SUITHtLVL SCHEIE STUDY PT193.NDG.
SPECT N,GAMT 5XPT-PROG NDG DOE-NDC-12 31 478 BNL SMITHiLVL SCHEEE STUDY PT195.ADG.
SPECT N,GAMT EXPT-PROG NDG D05-NDC-12 26 478 BNL CASTENILVL SCH UP TO 2.5MEV.CPD.NDG.
N.2N EXPT-PROG 19+7 KDK-23 15 478 LND LUNDBEBGt ABS. NEASUREIEUT
N,2N EXPT-PSOG PISS NEANDC(E) 192 5 478 PTB IANNHART.P.84 AVG SIG CPD CALC
N,GAIMA THEO-PROG l014 10t6 INDC(EURl11 47 378 GEL LISKIEN+CALC OF SIG PLOCTUATIOUS
N,GAUIA EXPT-PROG 15+7 KDK-23 15 478 LND UAGNUSSONI ACT TECHNIQUE
N,GAEBA EXPT-PROG PISS NEANDC(E)l92 5 478 PT0 IANNHART.P.84 AVG SIG CPD CACC
POLARIZATION EXPT-PROG 16+7 NEANDC(E1 192 8 678 EDG GALLOBAY+ P121.GRAPHS COD OPTnDL.
SPECT N,GAMT EXPT-PROG NDG DOE-NDC-12 32 U78 BNL ZGANJARtLVL SCHENE HG197.S P E.CPD.
POLAPIZATION EXPT-PROG 16+7 NEANDC(E1 192 8 678 EDG GALLOWAY* P12l.GRAPHS CPD OPTMDL.
DIPP INELAST EXPT-PROG 20*6 45t6 KDK-23 32 478 AE EAESTROU.
DIPf ELASTIC EXPT-PROG 7016 80t6 KDK-23 34 478 AE RAISTRON* TOP 20 TO 174 DEGREES
DIP? INELAST EXPT-PROG 20+6 45+6 KDK-23 32 478 AE RAKSTROE.
FESON PAPAIS EXPT-PROG 13+0 41+1 DOE-NDC-12 43 478 COL LUERStTBL W2,PP.D GVN.G8PHS.77RES E.
N.FISSI0N EXPT-PROG 10+0 43+l DOE-NDC-12 43 978 COL LUERS+TOP.REL u235.CUEV.
PISS YI'LD EXPT-PROG NDG DOE-NDC-12 42 478 COL LUSIStUASS+TOT KE DISTR.GBPB.
FPAG SPtCTRA EXPT-PROG NDG DOE-NDC-l2 42 478 COL LOERStNASStTOT KE DIST8.GEPB.
RESON PLRAlS EXPT-PROG 11+0 38+1 DOE-NDC-l2 43 478 COL LOERStNDRI BEL 0235.TBL.
SPECT N,GAMT EXPT-PROG 1U+O DOE-NDC-12 32 U78 BNL JEUCH+EPIIHERIAL.LVL.STODY T8231.NDG
DIP? ELASTIC EXPT-PROG 3Ct5 DOE-NDC-l2 151 478 LT1 KSGEL+EXPT TBD.NDG.
DIPF ELISTIC EXPT-PROG lot6 31+6 DOE-NDC-l2 152 478 LT1 KEG?L+EXCIT PN,ANGDIST.TBD.NDG.
DIPF INELAST EXPT-PROG NDG DOE-NDC-12 153 478 LT1 KEGELtEXPT TBC.NDG
DIPP INELAST IXPT-PROG 3Ct5 DOE-NDC-l2 151 478 LT1 KEGEL+50KEV,U5KEV STITES.UDG.TBC.
DIPP INELPST EXPT-PROG 10+6 31t6 DOE-NDC-l2 152 478 LT1 KEGSL+EXCIT PN,ANGDIST.TBD.NDG.
INELASTIC G EXPT-PROG 1016 3 0 6 DOE-NDC-l2 153 478 LT1 KEGELtl25DEG EXCIT PN.PREL1I.TBC.UDG
N,PISSION EXPT-PROG 50+6 90+6 KDK-23 26 478 FOA CONDEI
N,FISSION EXPT-PROG 12+6 2016 INDC (EOR) 11 22 378 GEL BLONS*LINAC TOP 2KEV BESOL
DELAYD NEUTS EVAL-PROG 13r6 16+7 DOE-NDC-12 249 478 OBL GWIN+NDG.SEEORNL-Tn-6245.
PISS YIELD EVAL-PROG 10-5 14+7 DOE-NDC-l2 135 478 LAS ENGLANDtEVL YLDS FOR ENDP/B-~.~E.BDG
N. FISSION EXPT-PROG NDG DOE-NDC-l2 108 478 LRL B E H R E N S + P R ~ ~ ~ / U ~ ~ ~ . N D G . T B D .
TOTAL EXPT-PROG lO+l 2C+5 NEANDC(E) 192 8 678 HA9 HASTE+ P28. DOPPLER sfP.AVG TRANsI.
FESON PARANS EXPT-PROG 21+1 89+1 NEANDC(EI192 8 678 HAR HASTE+ P28. DDPPLER spP.
EVALUATION EVAL-PROG 50t4 20t7 DOE-NDC-12 131 478 LAS STEUART+ENDP/B-V.BD~.
ELEMENT QOANTITY TYPE ENERGY DOCUHFNTATION LAB COHRENTS S A IIN HAX REP VOL PAGE DATE ....................................................................................................
TOTAL THEO-PROG 1C*3 15+7 DOE-NDC-12 137 478 LAS NADLANDIOPTnDL CALC.NDG.
N,FISSION EXPT-PROG 13+5 82+6 DOE-NDC-l2 10 478 ANL POEN1TZ.IONZ CHIBR.GRPH.CPD END?
N,PISSION EXPT-PROG 15+5 20t7 NEANDC(E)l92 8 678 HAR JANSS+ P33- 5011 T0P.SYNCA.REL 5-235
N,PISSION EXPT-PRJG 23r4 96t5 DOE-NDC-12 168 478 IHG BALDUINt5ES.PBOTO W 5OURCE.NOG.TBD.
SPtCT PISS G EXPT-PROG IAXU DOE-NDC-12 122 478 LAS HENDTeG SPEC.TBL.CPD ENDP,OTB.
PISS YIELD EVAL-PROG 25-2 14+7 DOE-NDC-12 135 478 LAS ENGLANDIEVL YLDS FOR ENDP/B-V.3E.IDG
FISS YIBLD EXPT-PROG UAXU NEANDC(OR)151 678 WUP ZWICKYt PI-1481,148G IND ILDS
€RAG SPECTRA EXPT-PROG 27+5 96+5 DOE-NDC-12 169 478 ANL ROSEaTSONt3ES.RNGDIST.TBD.BDO
N. FISSION EXPT-PROG SPON NEANDC(0R) 151 678 WUR REIST* SPON PISS HALF LIVE.
TOTAL THEO-PROG lot3 15+7 DOE-NDC-12 137 478 LAS fiADLAND+OPTBDL CALC.NDG.
N. FTSSION
N. FISSIOU
N. FISSION
N,PISSION
N,PISSION
B,FISSION
N,PISSION
N, FISSION
N,FISSION
ALPRI
EXPT-PROG lot0 43+1 DOE-NDC-12 42 478 COL LUERStREL B1O.PBELIN ANAL.GRPB.
THEO-PROG 1014 1016 INDC(EUR) 11 47 378 GEL LISKIENtCALC OF SIG PLUCTOATIOUS
EXPT-PROG 15-2 2Ot2 INDC(EUR)ll 23 378 GEL BARTHELZHY* REL TO LI-6 AND 8-10.
EXPT-PROG 13+6 20t7 NEANDC(E) 192 5 478 KPK KARI+ P.6 ABSOL,NDG
EXPT-PROG 10+5 30t7 DOE-NDC-l2 108 478 LRL BEHgENSt5 R4TIOS.NDG.TBP.TBC.
EXPT-PROG 23+4 DOE-NDC-12 168 478 HHG BALDYIN+NDG.ANIL T8D
EXPT-PROG 70+5 2017 DOE-NDC-12 175 478 NBS CARLSON+TOP.&NAL TBD.UDG.RBL UP237
EXPT-PROG 2Ot5 12+6 DOE-NDC-l2 175 478 NSS YASSONtABSOL nEAS.CPD PEL HEAS.IDG.
EXPT-PROG lGtO 10+5 DOE-NDC-12 271 478 RP1 NAKAGOUEtCPD ENDP.NDG
EXPT-PROG FAST NEANDC(E)192 8 678 HAE RCKEAN* P89. IRRADIATION I A PPB.
ALPHA EXPT-PROG lot4 5015 NEANDC(E)192 5 478 KPK BEERtP.19 GRP4S.CED OTHERS
NUBAP (NU) EXPT-PROG 50-3 lot7 DOE-NDC-12 239 478 OEL GYINtRZL CF252.NDG.SEE 0x81-TH-6246
DELAPD NEUTS EXPT-PROG UAXW DOE-NDC-12 22 478 BNV REEDER+ES.NDG.TBC.SEE PR/C 16 P2098
DELAYD NlOTS EXPT-PROG U A X W DOE-NDC-12 179 478 NB5 SCHRACK.U02,U308 CHEIICAL EPPBCT.TBC
DELAYD NEUTS EXPT-PROG U A X Y KDK-29 28 478 SUR ALEKLETTt GI.BR,RB PRECURSEBS
DELAYD NEUTS EXPT-PROG HAXE KDK-23 28 478 SYR ALEKLETT* 1N.TE.I.XE.CS PRECURSERS.
€RAG NEUTS EXPT-PROG UAXU DOE-NDC-l2 22 478 BNY REEDERtES.NDG.THC.SEE PR/C 16 P2098
SPECT FISS N EXPT-PROG lot5 NEANDC(E) 192 8 678 AE ADRilSt (HAPI P.59.ABST. UDG.
SPECT FISS N EXPT-PROG 1015 KDK-23 24 478 RE ADAVSt IOU EN SPECT.
SPECT FISS G EXPT-PROG IAXY DOE-NOC-l2 122 478 IAS BENDT+G SPEC.TBL.CPD ENDP.048.
PISS YIELD EXPT-PROG 30-1 19t1 DOE-NDC-l2 46 978 COL LUERS+HASS*TOT KE DISTLGRPR SUBS.
FISS YIELD EXPT-PROG IAXU DOE-NDC-l2 46 478 COL LUEgS+HASS+TOT KZ DISTR.GRPR.
FISS YIELD EXPT-PROG NDG DOE-NbC-12 42 478 COL LUERStTHICX SIIPL.TERNARY ALPS,UDG
FISS YIELD EXPT-PROG HAXY NERNDC(E) 192 8 678 BAR HCKEANI P90. TRITIUI YLD IN DID0
PISS YIELD EVAL-?ROG 25-2 14t7 DOE-NOC-l2 135 478 LAS ENGLANDIEVL YLDS FOR ENDP/B-V.~E.UDG
FISS YIELD EXPT-PROG PILE NEANDC(E) 192 5 478 NNZ D E Y S C H L A G + P . ~ ~ NBt8A NUCLIDES
FFAG SPFCTRA EXPT-PROG 27t5 96+5 DOE-NDC-l2 169 478 ANL ~ ~ R E R T S ~ N ~ ~ E S ~ A N G D I S T . R D G
PRAG SPECTRA EXPT-PROG 30-1 19tl DOE-NOC-12 46 478 COL LUERS+~ASS+TOT KE DISTR.GRPU SEES.
FRAG SPECTRA EXPT-PROG XAXW DOE-NDC-l2 U 6 478 COL LUERS~HLSS~TOT RE DIsTR.GRPB.
FISS PPOD G EXPT-PROG URXU KDK-23 32 478 LE JOHANSSUH~ DELAYED GAn-IPTER PISSION
ELSHENP QUANTITY T Y P E ENE6GY DOCUMENTATION LAB COilXENTS S A B I N I A X BCF VOL PAGE DATE .................................................................................................... U 2 3 5 F I S S PROD G EXPT-PROG P I L E KDK-23 4 4 7 8 CTH BPODENt ZR,NB,TC 1SOTOPES.CHEU S E P
U 2 3 5 F I S S PROD G EXPT-PROG NDG N E A N D C ( E j 1 9 2 5 4 7 8 PTR S C H O E T Z I G t P . 8 3 1 1 3 1 , E I I S S - P R O B
U 2 3 5 F I S S P 9 0 D G EXPT-PROG IAXU KDK-23 2 9 4 7 8 SYR FOGBLBERG+ I N GAXUIS.
U 2 3 5 F I S S PROD G EXPT-PROG IAXU KDK-23 2 9 4 7 8 S U S FOGELBERGt SN I S O l J P E G l U H I S
ll 2 3 6 N , F I S S I O N EXPT-PROG 5 0 1 6 9 0 1 6 KDK-23 2 6 U 7 8 POA CONDE* REL.TO U 2 3 5 P I S S I O P
U 2 3 6 N.PISS1ON EXPT-PROG SPON NEANDC(0R) 1 5 1 6 7 8 YUR R E I S T * SPON P I S S BALP L I V E .
U 2 3 6 F I S S Y I E L D EVAL-PROG l o t 5 DOE-NDC-l2 1 3 5 4 7 8 LAS ENGLANDtEVL YLDS FOE ENDP/B-V.8DG
U 2 3 8 EVALOATION EVAL-PROG 4 5 + 4 2 0 + 7 DOE-NDC-12 2 1 U 7 8 ANL P O E N I T Z t S E E ANL-NDU-32.8DG.
U 2 3 8 T O T A L EXPT-PROG i o + n 4 3 3 INDC(EUR) t l 2 7 3 7 8 GEL CORNELISILINAC TOP X E A S U
U 2 3 8 TOTAL THEO-PBOG 1 D + 3 1 5 t 7 DOE-NDC-12 1 3 7 4 7 8 LAS I A D L A N D t O P T I D L CALC.%DG.
U 2 3 8 TOTAL EXPT-PROG 6 6 + 0 6 8 t C DOE-NDC-l2 1 7 9 4 7 8 NBS 8 0 Y N A N + U 2 3 8 - 0 3 C 8 VS 0PG.GRPH.
U 2 3 8 TOTAL EXPT-PROG 1 0 + 2 1 7 + 5 DOE-NDC-12 2 3 8 4 7 8 ORL OLSZN+TRNS.RES 3.NDG.SES ORNL-TR5915
U 2 3 8 RESON PARASS ZXPT-PROG l O + G 4 3 + 3 I N D C ( E U R j 1 1 2 7 3 7 8 GEL C O R N E L I S I L I N A C TOP HEIISR
U 2 3 8 RESON PARAHS EXPT-PROG 1 7 + 0 I N D C ( E U B j 1 1 2 4 3 7 8 GEL STAVELOZtSCAT E X P E R I I E N T
U 2 3 8 BESON PAPARS EXPT-PBOG 6 7 + 0 1 9 + 2 N E A N D C ( E j 1 9 2 8 678 HAR HASTE+ P 2 4 . S-WAVE PARAHS PROU TRANS
U 2 3 8 6ESON P A R R 1 5 EVAL-PROG 6 7 + 0 3 7 t 1 NEANDC(E) 1 9 2 5 4 7 8 KFK GOEL.P.33 YN.UG.3 LEVELS
U 2 3 8 RESON PARAHS EXPT-PPOG 1 0 + 2 1 7 t 5 DOE-NDC-l2 2 3 8 4 7 8 ORL O L S E N t T R N S a E S FOB SHARP RES.NDG.TBP.
U 2 3 8 RESON PAPAHS ZVAL-PROG 4 C t 3 DOE-NDC-12 2 5 0 4 7 8 ORL DESAUSSUREt NDG, SEE O R N L - T I - 6 1 5 2
U 2 3 8 RESON PARAHS BXPT-PROG 6 7 t G 8 1 + l DOE-NDC-12 2 6 3 4 7 8 R P 1 8LOCKtCAPT.TBL YN,YG.CFD LNDP,OTB.
U 2 3 8 STBNTH FNCTN EXPT-PROG l o t 0 4 3 + 3 I N D C ( E U 6 ) 11 2 7 3 7 8 GEL C O R N E L I S + L I N A C TOP MEASU
U 2 3 8 E L A S T I C SCAT EXPT-PROG 1 0 + 0 4 3 + 3 I N D C ( E U F j 1 1 2 7 3 7 8 GEL C O R N E L I S I L I N A C TOP HEASH
U 2 3 8 D I F P E L A S T I C EXPT-PROG 9 0 + 5 3 1 + 6 DOE-NDC-12 1 5 2 4 7 8 L T 1 KEGEL+TBP.EXCIT FN,INGDIST+GRPAS.CFD
U 2 3 8 D I F F E L A S T I C EXPT-PROG 3 0 1 5 DOE-NDC-12 151 4 7 8 L T 1 KEGELtEXPT TBD.NDG.
O 2 3 8 D I F F I N E L A S T EXPT-PBOG 9 0 t 5 3 1 + 6 DOE-NDC-12 1 5 2 4 7 8 L T 1 KEGZLtTBP.EXC1T PN,ANGDIST.GBPHS.CPD
U 2 3 8 D I F F I N E L A S T E X P T - P R O G ' l O t S 3 0 + 5 DOE-NDC-l2 1 5 1 4 7 8 L T 1 KSGELt45KEV STATE-TBL C S 5 ES-TBC.
D I F F I N E L A S T EXPT-PROG NDG DOE.NDC-l2 1 5 3 4 7 8 L T 1 KEGELIEXPT TBC.NDG
I N E L A S T I C G EXPT-PROG 1 0 1 6 3 0 t 6 DOE-NDC-12 153 4 7 8 L T 1 K E G E L + 1 2 5 D f G E X C I T FN.PRELIU.TBC.IDG
N , F I S S I O N EXPT-PROG 5 0 i 6 9 0 + 6 KDK-23 2 6 U 7 8 FOA CONDEt PEL.TO U 2 3 5 P I S S I O l
N. F I S S I O N EXPT-PROG SPON N E A N D C ( E j 1 9 2 5 4 7 8 KLN T H I E L + P . 6 1 DECAY-CONST DBT
F I S S Y I E L D THEO-PROG FAST DOE-NDC-l2 1 7 4 7 8 I N L G I N D L E R + I A S S DISTR CALC.CDRV.CPD E I P
P I S S Y I E L D EXPT-PROG P A S T NEANDC(E) 1 9 2 8 6 7 8 HAP CUNINGHAXEI P 9 0 . YLD O P 1 0 - 9 9 . I D G
F I S S Y I E L D EVAL-PROG l o t 5 1 4 t 7 DOE-NDC-l2 135 U 7 8 LAS ENGLANDtEVL YLDS FOR ENDP/B-V.2E.UDG
N,GAHRR EXPT-PROG l o t 0 4 3 t 3 INDC(EUR) 1 1 2 7 378 GEL C O R N E L I S t L I N I C TOP UEASU
N,GAIHA EXPT-PBOG 6 7 + 0 8 1 + 1 DOZ-NDC-12 2 6 3 4 7 8 R P 1 BLOCK+TOP.SELF 1 N D I C . C I P T YLD-CORV.
S P E C T N,GAIT EXPT-PROG 2 0 t 3 2 4 t 4 DOE-NDC-l2 3 2 4 7 8 BNL CHRIEN+U239LVL STRUCT.INTS.CPD.NDG
P I S S Y I E L D EVAL-PROG 2 5 - 2 1 4 + 7 DOE-NDC-12 1 3 5 4 7 8 LAS EYGLAND+EVL YLDS POR ENDP/B-V.3B.IDG
TOTAL EXPT-PROG 8 O I O 2 1 t 2 I N D C ( E U R ) l l 2 9 3 7 8 GEL ANGELETTIILINAC TOP H E l S U
TOTAL THEO-PROG l o t 1 l t t 3 DOE-NDC-l2 1 1 4 4 7 8 LAS AUCHIIPAUGH+TRNS.RES ANAL.THc.IDG
RESON P A F A I S EXPT-PROG 8O+O 2 1 t 2 INDC(EUR) 1 1 2 9 3 7 8 GEL A N G E L E T T I ~ L I N A C TOP i iEkSU
RESON P A B A I S THEO-PROG l O + l l o t 3 DOE-NDC-12 1 1 4 4 7 8 LAS A U C H A I P A U G H ~ T R N S . R E S PAR ANAL.NDG
ELS3ENT QUANTITY TYPE EHELGY DOCUnENTATION LAB COHRENTS S A BIN flAX REP VOL PAGE DATE
STRNTH FNCTN EXPT-PBOG 80+0 2lt2 INDC(B0S) 11 29 378 GEL ANGELBTTI+LINRC TOP REASl
ELASTIC SClT EXPT-PROG 80+0 21t2 INDC(EUR)ll 29 378 GEL ANGBLETTI+LINAC TOP nEASl
N,PISSION EXPT-PROG lot5 30t7 DOE-NDC-l2 108 478 LRL BEH?ENS+NP237/U235.NDGGT8P NSK.
N,PISSI06 EXPT-PRCG 23+4 96t5 DOE-NDC-12 168 478 HHG BALDPINt5ES.PHOTO N SO0RCE.NDG.TBD.
FISS YIELD EVAL-PBOG PAST DOE-NDC-12 135 478 LAS ENGLANDILVL YLDS FOR ENDP/B-V.NDG
PttAG SPECTRA EXPT-PROG 27+5 96+5 DOE-NDC-l2 169 478 ANL ROBERTSON+3ES.ANGDIST.TSD.IDG
N.GARHA EXPT-PROG 80i0 21+2 INDC(EUR1 l 1 29 378 GEL ANGELETTItLINAC TOP lERSl
LVL DENSITY EXPT-PPOG 80+0 2'+2 INDC(EUR)ll 2q 378 GFL ANGELETTItLINAC TOP UEASn
TOTAL EYPT-PBOG 1012 5015 DOE-NDC-12 239 478 ORL GUIN+TRNS.NDG.
::,FISSION EXPT-PROG 1010 43+1 DOE-NDC-l2 42 478 COL LUERS+REL 810.PR3LIH INAL.GBPB.
6,PISSION EXPT-PROG 50-1 17+0 DOE-NDC-12 42 478 COL LUERStPEL B10.PRELII ANAL.GRPB.
N,PISSION EXPT-PROG 15+5 20+7 NEANDC(E)l92 8 678 EAR JAHES* P33. 50M TOF.SYNCH.REL 0-235
N,FISSION EXPT-PPOG 10+6 20+7 NEANDC(E) 192 5 478 KFK KAEI* P.6 RBSOL.CURV,CPD OTBEBS
N,FISSION EXPT-PEOG 23t4 DOE-NDC-12 168 478 fi8G BALDYIN+NDG.ANAL IBD
h'UB16 (NU) EXPT-PBOG 50-3 1G+7 DOE-NDC-12 239 478 OEL GUINtREL CP252.NDG.SEE ORNL-TB-6246
SPECT FISS G EXPT-PROG IAXS DOE-NDC-l2 122 478 LAS BENDT+G SPEC.TBL.CFD ENDP,OTB.
PISS YIELD EXPT-PEOG 90-1 10+2 DOE-NDC-12 48 478 COL LUERS+RLSS+TOT KE D1STR.GRPH.
PIS5 YIELD EXPT-PBOG 20-3 20+0 DOE-NDC-12 U8 478 COL LUERStlASStTOT KE DISTR.GRPH.
FISS YIELD EXPT-PROG 25-2 lot2 INDC(E0R) 11 31 378 GEL BARPHELEUYtNASS DISTRIB
FISS YIELD EXPT-PROG PAST NEANDC(E) 192 8 678 HAR CONINGBAHEI P90. YLD OF ll0-99.NDG
PISS YIELD EXPT-PROG ~ A X W NEANDC(0R) l51 678 PUB ZIICKY+ PR-1481,148G IND YLDS
PRAG SPXCTRA EXPT-PROG 27+5 96+5 DOE-NDC-12 169 478 ANL ROBERTSON+3ES.ANGDIST.ANlL TBD.NDG.
PR:,: SPECTSA EXPT-PROG 20-3 25t0 DOZ-NDC-12 48 478 COL LUFRStlASStTOT KE DISTR.GRPB.
PRAG SPECTlA EXPT-PRCG NDG DOI-NDC-12 48 479 COL LC7'S+RASS+POZ XE DISTR.GRPH.
PRAG SPECTRA EXPT-PROG 25-2 10+2 INDC(EUR)11 31 378 GEL BALTHELEBY+KIN ENERGX SPECTRA
RESON PARRRS EXPT-PROG lltO NEANDC(E)192 5 478 KIL PRIESREYERtP.59 TRRNS,TBD
N,FISSION EXPT-PROG 1014 25+5 NEANDC(E)192 5 478 KPK KAEPPELERtP.25 EEL U235.GBPA
N.PISS10N EXPT-PEOG lot6 2017 NEANDC(E1 192 5 478 KFK KART+ P.6 ABSOL.CURV.CP0 OTREBS
PISS YIELD EVAL-PEOG PAST DOE-NDC-12 135 478 LA5 ENGLAND+EVL YLDS POR ENDP/B-V.NDG.
N,GAllMA EKPT-PROG 5014 25t5 NEAADC(E)192 5 478 KFK WISSHRKtP.23 GRPA.CFD OTHEBS
N.PISSI0N EXPT-PEOG SPON NEANDC(E)l92 8 678 HIE CSOUCH+ HALF-LIPE.OLD+NE9 SAIPLES.
N,PISSION EXPT-PROG 25-2 80+0 DOE-NDC-l2 109 478 LRL CZ1RR.CFD ENDF/B-V.NDG.TBP NSE
FISS YIELD EVAL-PROG 25-2 1015 DOE-NDC-l2 135 478 LAS ENGLAND+EVL YLDS FOR ENDP/B-V.2E.NDG
PISS YIELD
N,GAHH&
TOTAL
RESON PARAU:
N,FISSIOK
N,PISSION
NPFISSION
N,?ISSION
EVAL-PROG FIST DOE-NDC-12 135 478 LA5 ENGLANDtEVL YLDS FOR ENDP/B-V.NDG
EXPT-PROG 50t4 25+5 NEANDC(E)192 5 478 KPK YISSHAKtP.23 NDG
EXPT-PROG 50+5 25+7 DOE-NDC-12 110 478 LRL PHILLIPStLINAC.TOp.TRNS.PREL~~ GRPB.
EVAL-PROG 10+0 6C+1 INDC(EUR) 11 33 378 GEL THEOBALD.AVERAGE UP CPD
EXPT-PROG 50+3 Sot6 INDC(E0R)ll 31 378 GEL BUDTZ-JOEPGENSEN~VDG flERSI
EXPT-PROG lO+O 20+5 INDC(EUR) 11 32 378 GEL BUDTZ-JOERGENSEN~VLINAC TOP UEAsl
EXPT-FROG 50tl 1014 NEANDCIE) 192 8 678 HAP GAYTHBR+ P35. GRLPH CPU OTAER 0l'Ca-
EXPT-PROG 13+4 90t5 NEANDC(Sl192 5 U78 KPK HAGEtP.26 GR~H,PISS-BARR CALC
ELEHENT QUANTITY T Y P E ENERGY DOCUHENTAPION LAB C O I I E N T S S A R I N I A X REP VOL PAGE DATE .................................................................................................... A?! 2 U l
All 2 4 1
AY 2 4 1
AY 2 u 1
Rll 2 4 1
A B 2 4 2
88 2 4 2
RH 2 4 3
AX 2 4 3
CH z 4 u
C F 2 5 2
C f 2 5 2
C P 2 5 2
C P 2 5 2
C F 2 5 2
CP 2 5 2
nR sr
EA N Y
LIA NY
RA NY
HA NY
UA NY
flA NY
P 3 4 1 5
P E 4 1 5
Pi! 4 1 5
ZR 4 2 3
N , F I S S I O N EXPT-PROG l o t 3 3 0 + 7 DOE-NDC-l2 1 0 8 47% LRL BEHRENStAR241/U235.NDG.TBP NSZ.
ABSORPTION EXPT-PHOG l o t 2 3 0 6 NEANDC(E) l 9 2 8 6 7 5 HAR GAYTHER* E 3 5 . G9APB CPD EVALUATION.
N,GANBA EXPT-PROG 1 0 + 2 3 0 + 5 NEANDC(E) 1 9 2 8 6 7 1 BAR GAITHER* P 3 5 . S E E A B S O B P T I O l
N,GAXilA EXPT-PROG P A S T N E A N D C ( E ) 1 9 2 8 6 7 6 BAR GLOVER* INTEGRAL YLD IETROD.TBD
N,GAIllA SXPT-PROG l C + U 2 5 + 5 NEANDC(E)192 5 4 7 8 KPK Y I S S H A K + P . 2 3 TBC.NDG
R , P I S S I O N EXPT-PROG 1 0 - 2 2 0 + 7 DOE-NDC-12 1 0 9 4 7 8 LRL BROUNE+LINAC.NETA.INAL TBD.NDG
NUBAB (NU) EXPT-PROG 1 0 - 2 3 0 1 7 DOE-NDC-12 1 0 9 4 7 8 LRL HOUE.LINAC.HETA.REL.U235.CPD.UDG.
N . P I S S I O N EXPT-PROG 1 0 1 5 3 0 + 7 DOE-NDC-12 1 0 8 U78 LRL BEHBENS*An243/O235 .NDG.TBF USB.
N,GRIHA EXPT-PEOG P A S T NEA!lDC(E) 1 9 2 8 678 RAE GLOVER* INTEGRAL YID O P C 8 - 2 9 2 .
N. F I S S I O N EXPT-PROG NDG N E A N n C ( E ) 1 9 2 5 4 7 8 KPK K A Z E R O U N I t P . 2 8 DETECT TEST,TBC
NUBAR (NO) EXPT-PROG SPON DOE-NDC-12 78 U 7 8 I N L S N I T R I N U DISCREPANCY DISCUSSED.
NUBAR (NU) EXPT-PROG SPON DOE-NDC-l2 78 4 7 8 I N L SNIT8.LIN BATH IETH.NDG.TBC
EOBAR (NU) EXPT-PROG SPON DOE-NDC-l2 173 4 7 8 HHG BOZORGHAlESH+NV REVAL=3.744+-.O23.
PRAG NEUTS EXPT-PROG SPON DOE-NDC-12 4 9 4 7 8 COL SONESHAKARiEXPT TBD.NDG.
F I S S Y I E L D EVAL-PROG SPON DOE-NDC-12 1 3 5 4 7 8 LAS ENGLANDIEVL YLDS FOR ENDP/B-V.NDG
PBAG ZPECTRA EXPT-PROG SPON DOE-NDC-12 4 9 U 7 8 COL S O I I S H A K A R t E X P T TBD.NDG.
EVALUATION EVAL-PROG NDG NEANDC(E) 1 9 2 5 4 7 8 KPK GOEL.P.33 TERNS-U SIG.UDG,TBC
RESON PARAHS THEO-PROG NDG NEANDC(E) 1 9 2 5 4 7 8 KFK PROEHNER. F. 3 7 CONVERSION-CALC
N. PROTON EVAL-PROG 15 t7 N E A N D C ( E ) 1 9 2 5 4 7 8 J U L Q A I I . P . 4 2 S Y S T E I I T I C S INV.NDG
N,TRITON EXPT-PROG 1 2 t 7 U 4 + 7 N E R N D C ( E ) 1 9 2 5 4 7 8 J U L Q A I I t P . 3 9 NT+NND+NNP S I G I G B P R S
H, ALPHA EXPT-PROG 1 4 + 7 NEANDC(E1 192 5 4 7 8 T O E NOERIKB+P.79 I N T E G S I G l r 6 - 9 0
N,N PXOTON EVAL-PROG 1 5 * 7 NEANDC(E) 1 9 2 5 U 7 8 J U L Q A I I . P . 4 2 SYSTENATICS INV,NDG
N,N ALPHA EVAL-PROG 1 5 t 7 N E A N D C ( E j 1 9 2 5 4 7 8 J U L Q h I I . P . 4 2 SYSTEUATICS IHV,NDG
N,PROTON EXPT-PROG 15+7 DOE-NDC-l2 1 0 5 4 7 8 L R L RAIGHT+(N,XP) .CS T B L . I I G QUAD SPEC.
N,DEUTEQON EXPT-PROG 15t7 DOE-NDC-l2 1 0 5 4 7 8 LRL B 1 I G H T + ( U , X P ) ,CS TBL.UAG QUAD S P E C .
N,ALPRA EX2T-PBOG 1 5 t 7 DOE-NDC-12 1 0 5 4 7 8 LRL RAIGHT+(N,XA) C S TBL.EAG QUAD S P E C .
TOTAL EXPT-PROG 8 0 - 2 4 0 - 1 N E A N D C ( E ) l 9 2 5 U78 K I L P R I E S I E Y E R + P . 5 9 GRAPH
NUCLEAR DATA COMPUTER FILES
AVAILABLE FROM TIIE NEA DATA BANK.
1. NEUTRON DATA
1.1. Experimental
1.1.1. EXFOR: The main international library for experimental neutron nuclear data. It includes most of the data compiled earlier in NEUDATA (OECD/NEA DATA BAYK) DASTAR (IAEA/NDS) , or CSISRC (BNL/NNDC)
1.1.2. ECSIL: The Livermore Library of experimental 11eutron nuclear data.
1.1.3. CROUCH'S FILE: Experimental data cn fission product yields in EXFOR Format.
1.1.4. MUSGROVE FILE: Compilation of experimental strength function data (Australia, 1973) .
1.2. Evaluated
1.2.1. General Evaluations.
1.2.1.1. ENDF/B-IV (BNL, 1975) 1.2.1.2. UKNDL-73 (UK, 1973) 1.2.1.3. KEDAK-3 (KFK, 1975) 1.2.1.4. SOCRATOR (USSI?, 1971-1978) 1.2.1.5. ENDL-78 (LLL, 1978) 1.2.1.6. DASTAR (Vienna, 1968): includes some earlier
USSR evaluations. 1.2.1.7. BENZI - Evaluations [CNEN. Boloanal . in
a . - ENDF/B and UK format.
1.2.1.8. JElrDL-1 (JAERI, 1977). Japanese Library in - - ENDF/B format.
1.2.1.9. VIEN-V0001 up to 7, some USSR and other evaluations compiled by IAEA/MDS in EXFOR
1.2.1.10 FRENCH - Evaluations in ENDF/B or UK Format (PHILIS, RIBON, KREBS, TROCAON, BLUET, SIMON etc.)
1.2.1.11 IAEA/NDS - Evaluations (LEFflMEL, BAK, MANERO, KOSIIIN etc.)
1.2.1.12 BNL-325 (1973), Data of Resonance Parameters 1.2.1.13 RESEMD-OUTPUTS, pointwise cross sections
calculated from the Resonance Parameters of ENDF/B-IV Library.
'1.2.2. Dosimetry Reactions
ENDF/B-IV, dosimetry file UKNDL-73, dosimetry file KEDAK-3, dosimetry file ENDL-78, dosimetry file RIGA-USSR dosimetry file (included in
VIEN-V0002 and 3) SAND-I1 and DETAN-74 dosimetry file ROMANIEN, dosimetry file (1974) HUNGARIAN dosimetry file (1970)
1.2.3. Fission Product Data
1.2.3.1. ENDF/B-IV fission product cross sections and decay data.
1.2.3.2. KEDAK (RCN-2) fission product cross sections. 1.2.3.3. JENDL-library: Japanese fission product cross
sections in ENDF/B format. 1.2.3.4. DEVILLERS fission product yields and decay data. 1.2.3.5. CNEN Bologna fission product cross sections in
ENDF/B format. 1.2.3.6. COOK'S library (or Australian library included
in UKNDL-library) of fission product cross sections.
1.2.3.7. ORNL-1973 fission product cross sections. 1.2.3.8. BIBFP and BIBGRFP, Czechoslovakian fission
products libraries of cross section, decay data and fission yields.
1.2.3.9. MEEK and RIDER, compilation of fission product yields (NEDO-1215M-l, 1974)
1.2.4. Group Cross Sections (see also: pages 39 to 41).
1.2.4.1. LIB-IV, library of group constants for nuclear reactor calculations, 50 groups, 101 nuclides (LA-6260-!IS, 1976, R.B. Kidmay and R.E. P4acFarlane) .
1.2.4.2. ARAMALO, USSR group constants, 26 group, 45 nuclides.
1.2.4.3. BENJAMIN file (SRL) 84 group cross sections for hea-y actinides ( 2 4 5 ~ ~ - 253 Es).
1.2.4.4. ENDF-Universal super group system
2. PHOTONUCLEAR DATA
2.1. NNCSC/LLL, Livermore Library of experimental photoneutron data.
2.2. ENDF/B-IV, photon interaction data.
3. CHARGED PARTICLE NUCLEAR DATA
3.1. KACHAPAG (PFK) library of experimental charged particle data in EXPOR format.
3.2. CAJAD (USSR) library of experimental charged particle data in EXFOR format
3.3. ENDF/B STARTER library of evaluated charged particle data. 3.4. VIEN-V1000, a file of VIEN-library for evaluated charged
particle data in EXFOR format. -P .-v----- - --
4. NUCLEAR STRUCTURE AND DECAY DATA.
4.1. ENSDF-Library, Evaluated Nuclear Structure Data File (Oak Ridge Nuclear Data Project), from which the Nuclear Data Sheets are edited.
4.2. ENDF/B-I'I fission product cross sections and decay data.
4.3. DEVILLERS fission product yields and decay data. 4.4. TOBIAS (CEGB, UK, 1978) library of decay data in ENDF/B forma 4.5. JUELICH library for gamma-lines of radionuclides. 4.6. MEIXNER's gamma-energies library 4.7. Radioactive Decay Data for 192 nuclides (BNL, 1974)
5 . NUCLEAR DATA REQUEST LISTS.
WRENDA, World request list for nuclear data measurements requested for the purpose of fission reactions, fusion reactor and safeguards.
6. NZUTRON BIBLIOGRAPHY AND DATA INDEX.
CINDA
GROUP CROSS-SECTION LIBRARIES
Library Name Oriqilr
ZZ-DLC-2 lOOG RSIC
ZZ-DLC-6 GAMLIB RSIC
ZZ-DLC-10 AVKER RSIC
ZZ-DLC-11 RITTS RSIC
ZZ-DLC-12 POPLIB RSIC
ZZ-DLC-l4 AIR RSIC
ZZ-DLC-16 COBB RSIC
ZZ-DLC-17 NOX RSIC
Codes to be used with Descriptioc Restrictions
ANISN, L9T, DTF-4, MORSE 100 group neutron cross sections generated by SUPERTOG from ENDF/B-3 (infinite dilution)
ANISN, DOT, DIF-4, MORSE
POPOP-4, ANISN, DOT, DIP4 MORSE.
ANISN, DOT, DIP-4, MORSE
XSDRN
06R, ANISN, DOT, DeF-4, MORSE
99 group neutron cross sections for C use in the GAM portion of GCC multi- group cross section code.
Neutron kerma response function data * 121 group coupled neutron-gamma cross section data for transport codes.
A comaendium of neutron-induced * I secondary gamma ray yield and cross W
section data. \D
I
Multigroup resonance-region cross C
sections for Tungsten end depleted uranium for use in shielding calculations
sample input to ANISN for calculation C
of neutron and secondary gamma-ray transport in air.
123 group neutron cross section data generated from ENDF/B-2 data for use in XSDRN discrete ordinates spectral averaging codes.
119 group P5 coupled neutron and C. secondary gamma ray cross section data for Nitrogen and Oxygen
Library Name Origin
ZZ-DLC-18 NAB RSIC
ZZ-DLC-21 KXRAY RSIC
ZZ-DLC-23 CASK RSIC
ZZ-DLC-24 SINEX RSIC
ZZ-DLC-28 CTR RSIC
ZZ-DLC-29 MACKLIB RSIC
ZZ-DLC-38 ORYX-E RSIC
ZZ-JFS-25 ) ZZ-JFS-70 ) JAERI
Z Z-JSD- l00 ) JAEEI ZZ-JSD-l20 )
Codes to be used with
ANISN, DOT, MORSE
RDXRAY
ANISN, DOT, MORSE
ANISN, DOT, MORSE
ANISN, DOT, MORSE
ANISN, DOT, MORSE
GAM
ORYX-E
ANISN, DOT, MGiZSE
Description Restrictions
100 group P3 neutron cross section data for sodium and aluminium
Evaluated x-ray cross section library
40 group coupled neutron and gamma ray cross section data
100 group neutron reaction cross sections * data generated by SUPERTOG from END?/B
126-group coupled neutron and gamma-ray * transportation cross section data generated by AMPX
73-group P3 coupled neutron and gama-ray * cross sections for fusion reactor calculaticns.
100 group neutron fluence to kerma factors and reaction cross sections generated by * MACK computer program from data in ENDF format.
ORIGEN yields and cross sections nuclear trans-rltation and decoy data from ENDF/B-4
JAERI Fast Reactor Group Constant Systems No
Muiti-group cross section sets for shield ? materials - 100 neutron groups and 20 gamma ray groups, in P5 approximaeion
Library Name Origin Codes to be used with D.escrlption Res t r ic t ions
ZZ-ACTINIDES NBL HAMMER Actinides 84-group cross sections * ZZ-THERElOS NESC THERMOS
ZZ-EURLIB EURATOM ANISN, DOT, NORSE
Thermal group-cross sec t ions from ENDF/B f o r THERMOS
120 group coupled neutron and gamma d a t a No l ibrary .
ZZ-LIB-IV BNL SPHINX, lDX, VENTURE LIB- IV a l i b r a r y of group constants f o r nuclear research calculat ions.
ZZ-ESIS-G19 EURATOM. ANISN, DOT, MORSE 19 group photon in t e rac t ion c ros s sec t ions N o
* These l i b r a r i e s are ava i l ab le to OECD count r ies without r e s t r i c t i o n ; whenever a reques t from a non-OECD country is received, wr i t t en authorizat ion must be received i n every case f r o n t h e U.S. A.uthorities before it can be d is t r ibu ted . i n some cases U.S. Centres p re fe r t o contac t t h e requestor d i r ec t ly .
7 These two l i b r a r i e s might possibly be released f o r general d i s t r ibu t ion . The problem w i l l be stildied i n t h e near fu ture .
AUSTRALIA
AUSTRIA
BELGIUM
CANADA
DENMARK
1 EURATOM
I GREECE I
: IRELAND I i ITALY l 1 JAPAN
8 NEA
NORWAY
PORTUGAL
SPAIN
SWEDEN
SWITZERLAND
TURKEY
UNITED KINGDOM
UNITED STATES
DISTRIBUTION LIST
W. Gemmell
F. Putz,
H. Ceulemans, F. Motte
G.C. Hanna, C. Keating, W.B. Lewis, W.H. Walker
N. Neltrup
K.H. Boeckhoff, H. Liskien, H. Rief, G. Rohr, E. Wattecamps, 11. Veigmann
P. Silvennoinen
J . C . Bluet, J. Bouobard, C . Cardot, C. Devil lers, E. For t , P. Hammer, R. Joly, J. Legrand, A. Michaudon, V.C. P h i l i s , P. Ribon, M. Salvatores, J. Salvy, H. T e l l i e r , R. Vidal
S. Cierjacks, F.H. Froehner, B. Goel, E. Kiefhaber, H. Kuesters, M. Mattes, M. Rit tberger
M. Dri tsa
M. Magnusson
T.A. Nevin
V. Benzi, U. Fa r ine l l i .
J. Hirota, S. Igaras i , S. I i j ima, Y. Kanda, S. Katsuragi, H. Matsunobu, T. Momota, R . Nakasima, K. Nishimura, K. Tsukada
L. Garcia de Viedma, N. Tubbs, J .A.G. Ros'en
M. Bustraan, H. Gruppelaar, H. Van Dam
E. Andersen, J . O . Berg
F. Gama Carvalho
A. Carbo, G. Manero, C. Sanchez de l Rio, G. Velarde
G. Apelquist, H. Conde, E. Hellstrand, L. Wallin, T. Wiedling
J. Brunner, J. Hadermann, T . Huerlimann, R. Richmond
C. Ertek
J . R . Askew, C.G. Campbell, P. Christmas, J . C . Cuninghame, A.C. Douglas, M.C. Moxon, A.L. Nichols, B.H. Patr ick, E.D. Pendlebury, J .L . Rowlands, M.G. Sowerby, J.S. Story, J . G . Tyror, C.A. Utt ley
R. Benjamin, R.C. Block, C. Bowman, C.L. Cowan, H. Goldstein, J. Hardy, C.R. Head, P. Hemmig, W.B. Henderson, N. Holden, R. Howerton, B.R. Leonard, C.R. Lubitz, D. Mathews, C.W. Maynard, H. Motz, NNCSC Library, E.H. Ottewitte, 0. Ozer, N.G. Paik, R.W. Peel le , E.R. Pennington, F.G. Perey, RSIC, G.L. Rogosa,VR.E. Schenter, A.B. Smith, N . Steen, W.A. Wittkopf, P. Young.