Atomic and Nuclear Physics Topic 7.3 Nuclear Reactions, Fission and Fusion.
Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion...
Transcript of Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion...
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Heavy-Ion Fusion Reactions
around the Coulomb Barrier
Kouichi Hagino
Tohoku University, Sendai, Japan
www.nucl.phys.tohoku.ac.jp/~hagino
cf. Experimental aspects of H.I. Fusion reactions:
lectures by Prof. Mahananda Dasgupta (ANU)
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Sendai
3.11 earthquake
after 1 month
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Fusion reactions and quantum tunneling
Basics of the Coupled-channels method
Concept of Fusion barrier distribution
Quasi-elastic scattering and quantum reflection
Heavy-Ion Fusion Reactions
around the Coulomb Barrier
cf. Experimental aspects of H.I. Fusion reactions:
lectures by Prof. Mahananda Dasgupta (ANU)
Kouichi Hagino
Tohoku University, Sendai, Japan
www.nucl.phys.tohoku.ac.jp/~hagino
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Fusion: compound nucleus formation
courtesy: Felipe Canto
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Inter-nucleus potential
Two forces:
1. Coulomb force
Long range,
repulsive
2. Nuclear force
Short range,
attractive
Potential barrier due
to the compensation
between the two
(Coulomb barrier)
•above barrier
•sub-barrier
•deep subbarrier
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Why subbarrier fusion?
Two obvious reasons:
discovering new elements
(SHE by cold fusion reactions) nuclear astrophysics
(fusion in stars)
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Why subbarrier fusion?
Two obvious reasons:
discovering new elements (SHE)
nuclear astrophysics (fusion in stars)
Other reasons:
reaction mechamism
strong interplay between reaction and structure
(channel coupling effects)
cf. high E reactions: much simpler reaction mechanism
many-particle tunneling
cf. alpha decay: fixed energy
tunneling in atomic collision: less variety of intrinsic motions
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a X Y
X(a,b)Y
Basic of nuclear reactions
b
Projectile
(beam)
Target nucleus
Notation
208Pb(16O,16O)208Pb : 16O+208Pb elastic scattering 208Pb(16O,16O‟)208Pb : 16O+208Pb inelastic scattering 208Pb(17O,16O)209Pb : 1 neutron transfer reaction
detector
Shape, interaction, and excitation structures of nuclei scattering expt.
cf. Experiment by Rutherford (a scatt.)
measures a particle
intensity as a
function of scattering
angles
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=(incident wave) + (scattering wave)
Scattering Amplitude
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Differential cross section
dW
The number of scattered particle through the solid angle of dW
per unit time:
(flux for the scatt. wave)
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Scattering Amplitude
Motion of Free particle:
In the presence of a potential:
Asymptotic form of wave function
(scattering amplitude)
partial wave decomposition
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Total incoming flux
r
Total outgoing flux
r
If only elastic scattering: (flux conservation)
:phase shift
(note)
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Optical potential and Absorption cross section
Reaction processes
Elastic scatt.
Inelastic scatt.
Transfer reaction
Compound nucleus
formation (fusion) Loss of incident flux
(absorption)
Optical potential
(note) Gauss‟s law
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Total incoming flux
r
Total outgoing flux
r
Net flux loss:
Absorption cross
section:
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In the case of three-dimensional spherical potential:
(reflection coeff.)
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Inter-nucleus potential Two forces:
1. Coulomb force
Long range,
repulsive
2. Nuclear force
Short range,
attractive
Overview of heavy-ion reactions
Heavy-ion: Nuclei heavier than 4He
Potential barrier due
to the compensation
between these two
(Coulomb barrier)
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Double Folding Potential
Phenomenological potential
cf. Michigan 3 range Yukawa (M3Y)
interaction
(MeV)
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rtouch
rtouch
154Sm 16O
Strong absorption
Automatic compound
nucleus formation once
touched (assumption of
strong absorption)
Three important features of heavy-ion reactions
1. Coulomb interaction: important
2. Reduced mass: large (semi-) classical picture
concept of trajectory
3. Strong absorption inside the Coul. barrier
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Strong absorption
the region of large overlap
High level density (CN)
Huge number of d.o.f.
Relative energy is quickly lost
and converted to internal energy
Formation of hot CN (fusion reaction)
:can access to the strong absorption
:cannot access cassically
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Partial decomposition of reaction cross section
Taken from J.S. Lilley,
“Nuclear Physics”
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Classical Model for heavy-ion fusion reactions Strong absorption
: can access to the strong absorption
region classically
b (impact parameter)
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1/Vb
pRb2
Taken from J.S. Lilley,
“Nuclear Physics”
Classical fusion cross section is proportional to 1 / E
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rtouch rtouch
154Sm 16O
Strong absorption Probability of fusion
= prob. to access to rtouch
Penetrability of barrier Fusion takes place by quantum tunneling
at low energies!
Fusion reaction and Quantum Tunneling
Automatic CN formation
once touched (assumption
of strong absorption)
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Tunnel probability:
x
V(x)
a -a
V0
x
V(x)
Quantum Tunneling Phenomena
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For a parabolic barrier……
x
Vb
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Energy derivative
of penetrability
(note) Classical limit
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Strong absorption
Potential Model: its success and failure
rabs
Asymptotic boundary condition:
Fusion cross section:
Mean angular mom. of CN:
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Fusion cross section:
Mean angular mom. of CN:
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C.Y. Wong, Phys. Rev. Lett. 31 (‟73)766
i) Approximate the Coul. barrier by a parabola:
ii) Approximate Pl by P0:
(assume l-independent Rb and
curvature)
iii) Replace the sum of l with an integral
Wong‟s formula
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(note)
(note)
For
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Comparison between prediction of pot. model with expt. data
L.C. Vaz, J.M. Alexander, and
G.R. Satchler, Phys. Rep. 69(‟81)373
Works well for relatively light systems
Underpredicts sfus for heavy systems at low energies
14N+12C
16O+27Al
Fusion cross sections calculated with a static energy independent potential
40Ar+144Sm
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Potential model: Reproduces the data
reasonably well for
E > Vb
Underpredicts sfus for
E < Vb
What is the origin?
Inter-nuclear Potential is
poorly parametrized?
Other origins? cf. seminal work:
R.G. Stokstad et al., PRL41(„78)465
PRC21(„80)2427
Data: J.R. Leigh et al., PRC52(„95)3151
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With a deeper nuclear potential (but still within a potential model)…..
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Potential Inversion
(note)
r
Vb
E
r1 r2
Energy independent
local
single-ch.
sfus V(r)
Semi-classical app.
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A.B. Balantekin, S.E. Koonin, and
J.W. Negele, PRC28(‟83)1565
Energy independent
local
single-ch.
Unphysical potentials 64Ni + 74Ge
64Ni + 64Ni
Potential inversion sfus V(r)
Semi-classical app.
Beautiful demonstration
of C.C. effects
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64Ni + 74Ge
64Ni + 64Ni
Potential inversion
t(E) e.g.,
t(E) = 3 +/- 0.2 fm
double valued potential
(unphysical !!)
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Potential model: Reproduces the data
reasonably well for
E > Vb
Underpredicts sfus for
E < Vb
What is the origin?
Inter-nuclear Potential is
poorly parametrized?
Other origins?
Fusion cross sections calculated with a static energy independent potential
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Target dependence of fusion cross section
Strong target dependence at E < Vb
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Low-lying collective excitations in atomic nuclei
Taken from R.F. Casten,
“Nuclear Structure from a
Simple Perspective”
Low-lying excited states in even-even nuclei are collective excitations,
and strongly reflect the pairing correlation and shell strucuture
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Effect of collective excitation on sfus: rotational case
0+ 2+
4+
6+
8+
0 0.082
0.267
0.544
0.903
(MeV)
154Sm
Excitation spectra of 154Sm cf. Rotational energy of a rigid body
(Classical mechanics)
154Sm is deformed
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154Sm 16O
Comparison of energy scales
Tunneling motion: 3.5 MeV (barrier curvature)
Rotational motion:
The orientation angle of 154Sm does not change much during fusion
Mixing of all orientations
with an equal weight
(note)
Ground state (0+ state) when
reaction starts
Effect of collective excitation on sfus: rotational case
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154Sm 16O
The orientation angle of 154Sm does not change much during fusion
Effect of collective excitation on sfus: rotational case
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154Sm 16O
The barrier is lowered for =0 because an attraction works from large
distances. Def. Effect: enhances sfus by a factor
of 10 ~ 100
Fusion: interesting probe for
nuclear structure
The barrier increases for =p/2. because the rel. distance has
to get small for the attraction to work
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Two effects of channel couplings
energy loss due to inelastic excitations
dynamical modification of the
Coulomb barrier
large enhancement of
fusion cross sections
no Coul-ex
with Coul-ex
cf. 2-level model: Dasso, Landowne, and Winther, NPA405(„83)381
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154Sm 16O
One warning: Don‟t use this formula for light
deformed nuclei, e.g., 28Si
28Si
0+
2+
4+
0
1.779
(MeV)
4.618
(MeV)
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More quantal treatment: Coupled-Channels method
ground
state
} excited
states
Coupling between rel. and
intrinsic motions
0+ 0+
0+ 0+
2+ 0+
Entrance
channel
Excited
channel
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Schroedinger equation:
or
Coupled-channels equations
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Coupled-channels equations
equation for yk transition from fk to fk‟
boundary condition:
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Angular momentum coupling
0+ 2+
4+
6+
Ip=8+
0 0.082
0.267
0.544
0.903
(MeV)
154Sm
Total ang. mom.:
![Page 52: Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion Reactions around the Coulomb Barrier Kouichi Hagino Tohoku University, Sendai,](https://reader030.fdocuments.in/reader030/viewer/2022041009/5eb62460badf471e96372aec/html5/thumbnails/52.jpg)
Boundary condition
(with ang. mom.
coupling)
0+ 0+
0+ 0+
2+ 0+
Entrance
channel
Excited
channel
![Page 53: Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion Reactions around the Coulomb Barrier Kouichi Hagino Tohoku University, Sendai,](https://reader030.fdocuments.in/reader030/viewer/2022041009/5eb62460badf471e96372aec/html5/thumbnails/53.jpg)
Excitation structure of atomic nuclei
Excite the target nucleus via collision with the projectile nucleus
Standard approach: analysis with the coupled-channels method
Inelastic cross sections
Elastic cross sections
Fusion cross sections
How does the targ. respond to
the interaction with the proj.?
S-matrix SnlI
![Page 54: Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion Reactions around the Coulomb Barrier Kouichi Hagino Tohoku University, Sendai,](https://reader030.fdocuments.in/reader030/viewer/2022041009/5eb62460badf471e96372aec/html5/thumbnails/54.jpg)
How to perform coupled-channels calculations?
1. Modeling: selection of excited states to be included
low-lying
collective
states only
S. Raman et al.,
PRC43(„91)521
![Page 55: Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion Reactions around the Coulomb Barrier Kouichi Hagino Tohoku University, Sendai,](https://reader030.fdocuments.in/reader030/viewer/2022041009/5eb62460badf471e96372aec/html5/thumbnails/55.jpg)
Ex (MeV)
typical excitation spectrum: electron scattering data
M. Sasao and Y. Torizuka,
PRC15(„77)217
GDR/GQR
low-lying collective excitations
low-lying non-collective excitations
Giant Resonances: high Ex, smooth mass number dependence
adiabatic potential renormalization
Low-lying collective excitations: barrier distributions,
strong isotope dependence
Non-collective excitations: either neglected completely or
implicitly treated through an absorptive potential
EGDR ~ 79A-1/3 MeV
EGQR ~ 65A-1/3 MeV
![Page 56: Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion Reactions around the Coulomb Barrier Kouichi Hagino Tohoku University, Sendai,](https://reader030.fdocuments.in/reader030/viewer/2022041009/5eb62460badf471e96372aec/html5/thumbnails/56.jpg)
2. Nature of collective states: vibration? or rotation?
a) Vibrational coupling
0+
2+
0+,2+,4+
excitation operator:
![Page 57: Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion Reactions around the Coulomb Barrier Kouichi Hagino Tohoku University, Sendai,](https://reader030.fdocuments.in/reader030/viewer/2022041009/5eb62460badf471e96372aec/html5/thumbnails/57.jpg)
a
b
Vibrational excitations
Bethe-Weizacker formula: Mass formula based on Liquid-Drop Model
(A, Z)
For a deformed shape,
e
E
![Page 58: Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion Reactions around the Coulomb Barrier Kouichi Hagino Tohoku University, Sendai,](https://reader030.fdocuments.in/reader030/viewer/2022041009/5eb62460badf471e96372aec/html5/thumbnails/58.jpg)
In general
alm
E
Harmonic oscillation
λ=2: Quadrupole vibration
Movie: Dr. K. Arita (Nagoya Tech. U.)
http://www.phys.nitech.ac.jp/~arita/
![Page 59: Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion Reactions around the Coulomb Barrier Kouichi Hagino Tohoku University, Sendai,](https://reader030.fdocuments.in/reader030/viewer/2022041009/5eb62460badf471e96372aec/html5/thumbnails/59.jpg)
In general
alm
E
Harmonic oscillation
λ=3: Octupole vibration
Movie: Dr. K. Arita (Nagoya Tech. U.)
http://www.phys.nitech.ac.jp/~arita/
![Page 60: Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion Reactions around the Coulomb Barrier Kouichi Hagino Tohoku University, Sendai,](https://reader030.fdocuments.in/reader030/viewer/2022041009/5eb62460badf471e96372aec/html5/thumbnails/60.jpg)
0+
2+
0+ 2+ 4+
0.558 MeV
1.133 MeV 1.208 MeV 1.282 MeV
114Cd
Double phonon states
Microscopic description
Random phase approximation (RPA)
![Page 61: Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion Reactions around the Coulomb Barrier Kouichi Hagino Tohoku University, Sendai,](https://reader030.fdocuments.in/reader030/viewer/2022041009/5eb62460badf471e96372aec/html5/thumbnails/61.jpg)
2. Nature of collective states: vibration? or rotation?
a) Vibrational coupling
0+
2+
0+,2+,4+
excitation operator:
![Page 62: Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion Reactions around the Coulomb Barrier Kouichi Hagino Tohoku University, Sendai,](https://reader030.fdocuments.in/reader030/viewer/2022041009/5eb62460badf471e96372aec/html5/thumbnails/62.jpg)
2. Nature of collective states: vibration? or rotation?
b) Rotational coupling
excitation operator:
0+
2+
4+
![Page 63: Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion Reactions around the Coulomb Barrier Kouichi Hagino Tohoku University, Sendai,](https://reader030.fdocuments.in/reader030/viewer/2022041009/5eb62460badf471e96372aec/html5/thumbnails/63.jpg)
Vibrational coupling
0+
2+
0+,2+,4+
Rotational coupling
0+
2+
4+
cf. reorientation term
![Page 64: Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion Reactions around the Coulomb Barrier Kouichi Hagino Tohoku University, Sendai,](https://reader030.fdocuments.in/reader030/viewer/2022041009/5eb62460badf471e96372aec/html5/thumbnails/64.jpg)
Deformed Woods-Saxon model:
3. Coupling constants and coupling potentials
excitation operator
![Page 65: Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion Reactions around the Coulomb Barrier Kouichi Hagino Tohoku University, Sendai,](https://reader030.fdocuments.in/reader030/viewer/2022041009/5eb62460badf471e96372aec/html5/thumbnails/65.jpg)
Coupling Potential: Collective Model
Vibrational case
Rotational case
Coordinate transformation to the body-fixed rame
(for axial symmetry)
In both cases
(note) coordinate transformation to the rotating frame ( )
![Page 66: Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion Reactions around the Coulomb Barrier Kouichi Hagino Tohoku University, Sendai,](https://reader030.fdocuments.in/reader030/viewer/2022041009/5eb62460badf471e96372aec/html5/thumbnails/66.jpg)
K.H., N. Rowley, and A.T. Kruppa,
Comp. Phys. Comm. 123(‟99)143
Deformed Woods-Saxon model (collective model)
CCFULL
http://www.nucl.phys.tohoku.ac.jp/~hagino/ccfull.html
![Page 67: Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion Reactions around the Coulomb Barrier Kouichi Hagino Tohoku University, Sendai,](https://reader030.fdocuments.in/reader030/viewer/2022041009/5eb62460badf471e96372aec/html5/thumbnails/67.jpg)
Nuclear coupling:
Coulomb coupling:
CCFULL K.H., N. Rowley, and A.T. Kruppa,
Comp. Phys. Comm. 123(‟99)143
i) all order couplings
![Page 68: Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion Reactions around the Coulomb Barrier Kouichi Hagino Tohoku University, Sendai,](https://reader030.fdocuments.in/reader030/viewer/2022041009/5eb62460badf471e96372aec/html5/thumbnails/68.jpg)
CCFULL K.H., N. Rowley, and A.T. Kruppa,
Comp. Phys. Comm. 123(‟99)143
i) all order couplings
![Page 69: Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion Reactions around the Coulomb Barrier Kouichi Hagino Tohoku University, Sendai,](https://reader030.fdocuments.in/reader030/viewer/2022041009/5eb62460badf471e96372aec/html5/thumbnails/69.jpg)
CCFULL K.H., N. Rowley, and A.T. Kruppa,
Comp. Phys. Comm. 123(‟99)143
i) all order couplings
K.H., N. Takigawa, M. Dasgupta,
D.J. Hinde, and J.R. Leigh, PRC55(„97)276
![Page 70: Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion Reactions around the Coulomb Barrier Kouichi Hagino Tohoku University, Sendai,](https://reader030.fdocuments.in/reader030/viewer/2022041009/5eb62460badf471e96372aec/html5/thumbnails/70.jpg)
CCFULL K.H., N. Rowley, and A.T. Kruppa,
Comp. Phys. Comm. 123(‟99)143
ii) isocentrifugal approximation
0+ l=J
2+ l=J-2, J, J+2
J=l+I
Truncation Dimension
2+ 4
4+ 9
6+ 16
8+ 25
2
3
4
5
Iso-centrifugal approximation:
λ: independent of excitations
“Spin-less system”
transform to
the rotating frame
![Page 71: Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion Reactions around the Coulomb Barrier Kouichi Hagino Tohoku University, Sendai,](https://reader030.fdocuments.in/reader030/viewer/2022041009/5eb62460badf471e96372aec/html5/thumbnails/71.jpg)
16O + 144Sm (2+)
K.H. and N. Rowley, PRC69(‟04)054610
![Page 72: Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion Reactions around the Coulomb Barrier Kouichi Hagino Tohoku University, Sendai,](https://reader030.fdocuments.in/reader030/viewer/2022041009/5eb62460badf471e96372aec/html5/thumbnails/72.jpg)
CCFULL K.H., N. Rowley, and A.T. Kruppa,
Comp. Phys. Comm. 123(‟99)143
iii) incoming wave boundary condition (IWBC)
strong
absorption
rabs
(1) Complex potential
(2) IWBC
limit of large W (strong absorption)
(Incoming Wave Boundary Condition)
Only Real part of Potential
More efficient at low energies cf. |Sl| ~ 1 at low E
![Page 73: Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion Reactions around the Coulomb Barrier Kouichi Hagino Tohoku University, Sendai,](https://reader030.fdocuments.in/reader030/viewer/2022041009/5eb62460badf471e96372aec/html5/thumbnails/73.jpg)
K.H., N. Rowley, and A.T. Kruppa,
Comp. Phys. Comm. 123(‟99)143
CCFULL
http://www.nucl.phys.tohoku.ac.jp/~hagino/ccfull.html
![Page 74: Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion Reactions around the Coulomb Barrier Kouichi Hagino Tohoku University, Sendai,](https://reader030.fdocuments.in/reader030/viewer/2022041009/5eb62460badf471e96372aec/html5/thumbnails/74.jpg)
16.,8.,144.,62.
1.2,-1,1.06,0
1.81,0.205,3,1
1.66,0.11,2,0
6.13,0.733,3,1
0,0.,0.3
105.1,1.1,0.75
55.,70.,1.
30,0.05
ccfull.inp reaction system
(Ap=16, Zp=8, At=144, Zt=62)
rp, Ivibrotp, rt, Ivibrott
(inert projectile, and vib. for targ.)
![Page 75: Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion Reactions around the Coulomb Barrier Kouichi Hagino Tohoku University, Sendai,](https://reader030.fdocuments.in/reader030/viewer/2022041009/5eb62460badf471e96372aec/html5/thumbnails/75.jpg)
16.,8.,144.,62.
1.2,-1,1.06,0
1.81,0.205,3,1
1.66,0.11,2,0
6.13,0.733,3,1
0,0.,0.3
105.1,1.1,0.75
55.,70.,1.
30,0.05
ccfull.inp reaction system
(Ap=16, Zp=8, At=144, Zt=62)
rp, Ivibrotp, rt, Ivibrott
(inert projectile, and vib. for targ.)
If Ivibrott =0: O = Ovib
Ivibrott =1: O = Orot
Ivibrott = -1: O = 0 (inert)
similar for the projectile
![Page 76: Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion Reactions around the Coulomb Barrier Kouichi Hagino Tohoku University, Sendai,](https://reader030.fdocuments.in/reader030/viewer/2022041009/5eb62460badf471e96372aec/html5/thumbnails/76.jpg)
16.,8.,144.,62.
1.2,-1,1.06,0
1.81,0.205,3,1
1.66,0.11,2,0
6.13,0.733,3,1
0,0.,0.3
105.1,1.1,0.75
55.,70.,1.
30,0.05
ccfull.inp (Ap=16, Zp=8, At=144, Zt=62)
(inert projectile, and vib. for targ.)
properties of the targ. excitation
E1st = 1.81 MeV
b = 0.205
l = 3
Nphonon = 1
coupling to 3- vibrational state in
the target with def. parameter b = 0.205
144Sm 0+
3- 1.81
0
![Page 77: Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion Reactions around the Coulomb Barrier Kouichi Hagino Tohoku University, Sendai,](https://reader030.fdocuments.in/reader030/viewer/2022041009/5eb62460badf471e96372aec/html5/thumbnails/77.jpg)
16.,8.,144.,62.
1.2,-1,1.06,0
1.81,0.205,3,1
1.66,0.11,2,0
6.13,0.733,3,1
0,0.,0.3
105.1,1.1,0.75
55.,70.,1.
30,0.05
ccfull.inp (Ap=16, Zp=8, At=144, Zt=62)
(inert projectile, and vib. for targ.)
properties of the targ. excitation
E1st = 1.81 MeV
b = 0.205
l = 3
Nphonon = 2 144Sm
0+
3- 1.81
0
(note) if Nphonon = 2: double phonon
excitation
(3-)2 1.81x2
![Page 78: Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion Reactions around the Coulomb Barrier Kouichi Hagino Tohoku University, Sendai,](https://reader030.fdocuments.in/reader030/viewer/2022041009/5eb62460badf471e96372aec/html5/thumbnails/78.jpg)
16.,8.,144.,62.
1.2,-1,1.06,0
1.81,0.205,3,1
1.66,0.11,2,0
6.13,0.733,3,1
0,0.,0.3
105.1,1.1,0.75
55.,70.,1.
30,0.05
ccfull.inp (Ap=16, Zp=8, At=144, Zt=62)
(inert projectile, and vib. for targ.)
properties of the targ. excitation
(note) if Ivibrott = 1 (rot. coup.)
the input line would look like:
0.08,0.306,0.05,3 instead of 1.81,0.205,3,1
E2+ b2 b4 Nrot
0+ 0.08
0 2+
4+
6+
4x5x0.08/6
6x7x0.08/6 3 excitated
states (Nrot=3)
+ g.s.
![Page 79: Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion Reactions around the Coulomb Barrier Kouichi Hagino Tohoku University, Sendai,](https://reader030.fdocuments.in/reader030/viewer/2022041009/5eb62460badf471e96372aec/html5/thumbnails/79.jpg)
16.,8.,144.,62.
1.2,-1,1.06,0
1.81,0.205,3,1
1.66,0.11,2,0
6.13,0.733,3,1
0,0.,0.3
105.1,1.1,0.75
55.,70.,1.
30,0.05
ccfull.inp (Ap=16, Zp=8, At=144, Zt=62)
(inert projectile, and vib. for targ.)
properties of the targ. excitation
same as the previous line, but the
second mode of excitation in the
target nucleus (vibrational coupling
only)
Nphonon = 0 no second mode
![Page 80: Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion Reactions around the Coulomb Barrier Kouichi Hagino Tohoku University, Sendai,](https://reader030.fdocuments.in/reader030/viewer/2022041009/5eb62460badf471e96372aec/html5/thumbnails/80.jpg)
16.,8.,144.,62.
1.2,-1,1.06,0
1.81,0.205,3,1
1.66,0.11,2,1
6.13,0.733,3,1
0,0.,0.3
105.1,1.1,0.75
55.,70.,1.
30,0.05
ccfull.inp (Ap=16, Zp=8, At=144, Zt=62)
(inert projectile, and vib. for targ.)
properties of the targ. excitation
second mode in the targ.
(note) if Nphonon = 1:
the code will ask you while you
run it whether your coupling
scheme is (a) or (b)
144Sm 0+
3- 1.81
0
2+ 1.66 b2
b3
144Sm 0+
3- 1.81
0
2+ 1.66 b2
b3
3- x 2+ 1.81
+1.66 (a)
(b)
![Page 81: Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion Reactions around the Coulomb Barrier Kouichi Hagino Tohoku University, Sendai,](https://reader030.fdocuments.in/reader030/viewer/2022041009/5eb62460badf471e96372aec/html5/thumbnails/81.jpg)
16.,8.,144.,62.
1.2,-1,1.06,0
1.81,0.205,3,1
1.66,0.11,2,1
6.13,0.733,3,1
0,0.,0.3
105.1,1.1,0.75
55.,70.,1.
30,0.05
ccfull.inp (Ap=16, Zp=8, At=144, Zt=62)
(inert projectile, and vib. for targ.)
properties of the targ. excitation
second mode in the targ.
properties of the proj. excitation
(similar as the third line)
(will be skipped for an inert
projectile)
![Page 82: Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion Reactions around the Coulomb Barrier Kouichi Hagino Tohoku University, Sendai,](https://reader030.fdocuments.in/reader030/viewer/2022041009/5eb62460badf471e96372aec/html5/thumbnails/82.jpg)
16.,8.,144.,62.
1.2,-1,1.06,0
1.81,0.205,3,1
1.66,0.11,2,1
6.13,0.733,3,1
0,0.,0.3
105.1,1.1,0.75
55.,70.,1.
30,0.05
ccfull.inp (Ap=16, Zp=8, At=144, Zt=62)
(inert projectile, and vib. for targ.)
properties of the targ. excitation
second mode in the targ.
properties of the proj. excitation
(similar as the third line)
transfer coupling (g.s. to g.s.)
(Ap + At)
(Ap‟ + At‟)
Qtr = +3 MeV
* no transfer coup. for F = 0
![Page 83: Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion Reactions around the Coulomb Barrier Kouichi Hagino Tohoku University, Sendai,](https://reader030.fdocuments.in/reader030/viewer/2022041009/5eb62460badf471e96372aec/html5/thumbnails/83.jpg)
16.,8.,144.,62.
1.2,-1,1.06,0
1.81,0.205,3,1
1.66,0.11,2,1
6.13,0.733,3,1
0,0.,0.3
105.1,1.1,0.75
55.,70.,1.
30,0.05
ccfull.inp (Ap=16, Zp=8, At=144, Zt=62)
(inert projectile, and vib. for targ.)
properties of the targ. excitation
second mode in the targ.
properties of the proj. excitation
(similar as the third line)
transfer coupling (g.s. to g.s.)
potential parameters
V0 = 105.1 MeV, a = 0.75 fm
R0 = 1.1 * (Ap1/3 + At
1/3) fm
![Page 84: Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion Reactions around the Coulomb Barrier Kouichi Hagino Tohoku University, Sendai,](https://reader030.fdocuments.in/reader030/viewer/2022041009/5eb62460badf471e96372aec/html5/thumbnails/84.jpg)
16.,8.,144.,62.
1.2,-1,1.06,0
1.81,0.205,3,1
1.66,0.11,2,1
6.13,0.733,3,1
0,0.,0.3
105.1,1.1,0.75
55.,70.,1.
30,0.05
ccfull.inp (Ap=16, Zp=8, At=144, Zt=62)
(inert projectile, and vib. for targ.)
properties of the targ. excitation
second mode in the targ.
properties of the proj. excitation
(similar as the third line)
transfer coupling (g.s. to g.s.)
potential parameters
Emin, Emax, DE (c.m. energies)
Rmax, Dr
![Page 85: Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion Reactions around the Coulomb Barrier Kouichi Hagino Tohoku University, Sendai,](https://reader030.fdocuments.in/reader030/viewer/2022041009/5eb62460badf471e96372aec/html5/thumbnails/85.jpg)
16.,8.,144.,62.
1.2,-1,1.06,0
1.81,0.205,3,1
1.66,0.11,2,1
6.13,0.733,3,1
0,0.,0.3
105.1,1.1,0.75
55.,70.,1.
30,0.05
ccfull.inp 16O + 144Sm Fusion reaction
-------------------------------------------------
Phonon Excitation in the targ.: beta_N= 0.205, beta_C= 0.205,
r0= 1.06(fm), omega= 1.81(MeV), Lambda= 3, Nph= 1
-------------------------------------------------
Potential parameters: V0= 105.10(MeV), r0= 1.10(fm),
a= 0.75(fm),power= 1.00
Uncoupled barrier: Rb=10.82(fm), Vb= 61.25(MeV),
Curv=4.25(MeV)
-------------------------------------------------
Ecm (MeV) sigma (mb) <l>
-------------------------------------
55.00000 0.97449E-02 5.87031
56.00000 0.05489 5.94333
57.00000 0.28583 6.05134
58.00000 1.36500 6.19272
59.00000 5.84375 6.40451
…………………
69.00000 427.60179 17.16365
70.00000 472.46037 18.08247
OUTPUT
In addition, “cross.dat” : fusion cross sections only
![Page 86: Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion Reactions around the Coulomb Barrier Kouichi Hagino Tohoku University, Sendai,](https://reader030.fdocuments.in/reader030/viewer/2022041009/5eb62460badf471e96372aec/html5/thumbnails/86.jpg)
Coupled-channels equations and barrier distribution
Calculate sfus by numerically solving the coupled-channels equations
Let us consider a limiting case in order to understand
(interpret) the numerical results
enI: very large
enI = 0
Adiabatic limit
Sudden limit
![Page 87: Heavy-Ion Fusion Reactions around the Coulomb Barrierkouichi.hagino/goa2011.pdf · Heavy-Ion Fusion Reactions around the Coulomb Barrier Kouichi Hagino Tohoku University, Sendai,](https://reader030.fdocuments.in/reader030/viewer/2022041009/5eb62460badf471e96372aec/html5/thumbnails/87.jpg)
Comparison of two time scales
spring on a board
mg
mg sin
mg cos
kDl
static case: mg sin = kDl Dl = mg sin / k
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move very slowly? or move instantaneously?
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Comparison of two time scales
similar related example: spring on a moving board
move very slowly? or move instantaneously?
always at the equilibrium length (Dl = mg sin / k ) “adiabatic limit”
keep the original length (Dl =0) “sudden limit”
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relative distance
fast reaction
slow reaction
large fluctuation
+ small fluctuation
around the adiabatic path
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Two limiting cases: (i) adiabatic limit
much slower rel. motion than the intrinsic motion
much larger energy scale for intrinsic motion than
the typical energy scale for the rel. motion
(Barrier curvature v.s. Intrinsic excitation energy)
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c.f. Born-Oppenheimer approximation for hydrogen molecule
p p
e-
R
r
1. Consider first the electron motion for a fixed R
2. Minimize en(R) with respect to R
Or 2‟. Consider the proton motion in a potential en(R)
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When e is large,
where
Fast intrinsic motion
Adiabatic potential renormalization
Giant Resonances, 16O(3-) [6.31 MeV]
16O(3-) + 144Sm(3-)
K.H., N. Takigawa, M. Dasgupta,
D.J. Hinde, J.R. Leigh, PRL79(‟99)2014
Adiabatic Potential Renormalization
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Ex (MeV)
typical excitation spectrum: electron scattering data
M. Sasao and Y. Torizuka,
PRC15(„77)217
GDR/GQR
low-lying collective excitations
low-lying non-collective excitations
Giant Resonances: high Ex, smooth mass number dependence
adiabatic potential renormalization
Low-lying collective excitations: barrier distributions,
strong isotope dependence
Non-collective excitations: either neglected completely or
implicitly treated through an absorptive potential
EGDR ~ 79A-1/3 MeV
EGQR ~ 65A-1/3 MeV
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154Sm 16O
Coupled-channels:
diagonalize
Slow intrinsic motion
Barrier Distribution
Two limiting cases: (ii) sudden limit
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E B
P0
E B
B1 B2 B3
w
B1 B2 B3 E
Barrier distribution
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Barrier distribution: understand the concept using a spin Hamiltonian
Hamiltonian (example 1):
x x
For Spin-up For Spin-down
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Wave function
(general form)
The spin direction does not change during tunneling:
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Tunneling prob. is a weighted sum of tunnel prob. for two barriers
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Tunnel prob. is enhanced at E < Vb and hindered E > Vb
dP/dE splits to two peaks “barrier distribution”
The peak positions of dP/dE correspond to each barrier height
The height of each peak is proportional to the weight factor
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simple 2-level model (Dasso, Landowne, and Winther, NPA405(„83)381)
entrance channel
excited channel
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simple 2-level model (Dasso, Landowne, and Winther, NPA405(„83)381)
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Sub-barrier Fusion and Barrier distribution method
(Fusion barrier distribution) N. Rowley, G.R. Satchler,
P.H. Stelson, PLB254(‟91)25
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centered on E= Vb
N. Rowley, G.R. Satchler,
P.H. Stelson, PLB254(‟91)25
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Fusion barrier distribution
Needs high precision data in order for the 2nd derivative to be meaningful
(early 90‟s)
Barrier distribution measurements
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154Sm 16O
T
Requires high precision data
M. Dasgupta et al.,
Annu. Rev. Nucl. Part. Sci. 48(‟98)401
Experimental Barrier Distribution
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Investigate nuclear shape through barrier distribution
Nuclear shapes
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By taking the barrier distribution, one can very clearly see
the difference due to b4!
Fusion as a quantum tunneling microscope for nuclei
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Advantage of fusion barrier distribution
Fusion Cross sections
Very strong exponential energy
dependence
Difficult to see differences due
to details of nuclear structure
N. Rowley, G.R. Satchler,
P.H. Stelson, PLB254(‟91)25
Plot cross sections in a different way: Fusion barrier distribution
Function which is sensitive to details of nuclear structure
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16O + 144Sm
K.Hagino, N. Takigawa, and S. Kuyucak,
PRL79(‟97)2943
144Sm
0+
3- 1.8
Quadrupole moment:
Example for spherical vibrational system
Anharmonicity of octupole
vibration
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16O + 144Sm
K.Hagino, N. Takigawa, and S. Kuyucak,
PRL79(‟97)2943
144Sm
0+
3- 1.8 MeV
Barrier distribution
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Coupling to excited states distribution of potential barrier
multi-dimensional potential surface
relative distance
r
x
(intrinsic coordinate)
single barrier
a collection of
many barriers
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1/Vb
pRb2
Taken from J.S. Lilley,
“Nuclear Physics”
Classical fusion cross section is proportional to 1 / E :
Representations of fusion cross sections
i) sfus vs 1/E (~70‟s)
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M. Dasgupta et al.,
Annu. Rev. Nucl. Part. Sci. 48(‟98)401
ii) barrier distribution (~90‟s)
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iii) logarithmic derivative (~00‟s)
cf.
R. Vandenbosch,
Ann. Rev. Nucl. Part. Sci. 42(„92)447 M. Dasgupta et al., PRL99(„07) 192701
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deep subbarrier hindrance of fusion cross sections
C.L. Jiang et al., PRL89(„02)052701; PRL93(„04)012701
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Systematics of the touching point energy and deep subbarrier hindrance
T. Ichikawa, K.H., A. Iwamoto,
PRC75(‟07) 064612 & 057603
mechanism of deep subbarrier
hindrance:
not yet been fully understood
how to model the dynamics after
touching?
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Quantum reflection and quasi-elastic scattering
x
Vb
In quantum mechanics, reflection occurs even at E > Vb
Quantum Reflection
Reflection prob. carries the same information as penetrability, and
barrier distribution can be defined in terms of reflection prob.
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Fusion
Quasi-elastic
Quasi-Elastic Scattering
Detect all the particles which
reflect at the barrier and hit the
detector
154Sm 16O
T
In case of a def. target……
Related to reflection
Complementary to fusion
A sum of all the reaction processes
other than fusion (elastic + inelastic
+ transfer + ……)
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16O + 154Sm
Subbarrier enhancement of
fusion cross sections Quasi-elastic scattering
(elastic + inelastic)
154Sm 16O
16O + 154Sm
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154Sm 16O
T
Quasi-elastic barrier distribution
Quasi-elastic barrier distribution:
H. Timmers et al.,
NPA584(‟95)190
(note) Classical elastic cross section in the limit of strong Coulomb field:
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Classical elastic cross section (in the limit of a strong Coulomb):
Quasi-elastic test function
Nuclear effects Semi-classical perturbation theory
S. Landowne and H.H. Wolter, NPA351(‟81)171
K.H. and N. Rowley, PRC69(‟04)054610
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The peak position slightly deviates
from Vb
Low energy tail
Integral over E: unity
Relatively narrow width
Close analog to fusion b.d.
Quasi-elastic test function
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16O + 144Sm
Expt.: impossible to perform
at Relation among different ?
Effective energy:
Scaling property
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16O + 144Sm
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K.H. and N. Rowley, PRC69(‟04)054610
H. Timmers et al., NPA584(‟95)190
Fusion
Quasi-elastic
Comparison of Dfus with Dqel
A gross feature is similar to each other
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70Zn + 208Pb
70Zn : E2 = 0.885 MeV, 2 phonon, 208Pb: E3 = 2.614 MeV, 3 phonon
Muhammad Zamrun F., K. H., S. Mitsuoka, and H. Ikezoe, PRC77(‟08)034604.
Experimental barrier distribution with QEL scattering
H. Timmers et al.,
NPA584(‟95)190
Experimental Data: S. Mitsuoka et al., PRL99(‟07)182701
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Experimental advantages for Dqel
・ less accuracy is required in the data (1st vs. 2nd derivative)
・ much easier to be measured
Qel: a sum of everything
a very simple charged-particle detector
Fusion: requires a specialized recoil separator
to separate ER from the incident beam
ER + fission for heavy systems
・several effective energies can be measured at a single-beam
energy relation between a scattering angle and an impact
parameter
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Scattering processes:
Double folding pot.
Woods-Saxon (a ~ 0.63 fm)
Fusion process: not successful
a ~ 1.0 fm required (if WS)
Deep subbarrier fusion and diffuseness anomaly
successful
A. Mukherjee, D.J. Hinde, M. Dasgupta, K.H., et al.,
PRC75(‟07)044608
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How reliable is the DFM/WS?
What is an optimum potential?
deduction of fusion barrier from exp. data?
(model independent analysis?)
scattering fusion
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QEL at deep subbarrier
energies: sensitive only
to the surface region
Quasi-elastic scattering at deep subbarrier energies?
16O + 154Sm
K.H., T. Takehi, A.B. Balantekin,
and N. Takigawa, PRC71(‟05) 044612
K. Washiyama, K.H., M. Dasgupta,
PRC73(‟06) 034607
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Fusion and quantum tunneling
Fusion takes place by tunneling
Basics of the Coupled-channels method
Collective excitations during fusion
Concept of Fusion barrier distribution
Sensitive to nuclear structure
Quasi-elastic scattering and quantum reflection
Complementary to fusion
Heavy-Ion Fusion Reactions around the Coulomb
Barrier
Summary
Computer program: CCFULL
http://www.nucl.phys.tohoku.ac.jp/~hagino/ccfull.html
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G.R. Satchler, “Direct Nuclear Reactions”
G.R. Satchler, “Introduction to Nuclear Reaction”
R.A. Broglia and A. Winther, “Heavy-Ion Reactions”
“Treatise on Heavy-Ion Science”, vol. 1-7
D.M. Brink, “Semi-classical method in nucleus-nucleus collisions”
P. Frobrich and R. Lipperheide, “Theory of Nuclear Reactions”
References
M. Dasgupta et al., Annu. Rev. Nucl. Part. Sci. 48(‟98) 401
A.B. Balantekin and N. Takigawa, Rev. Mod. Phys. 70(‟98) 77
Proc. of Fusion03, Prog. Theo. Phys. Suppl. 154(‟04)
Proc. of Fusion97, J. of Phys. G 23 (‟97)
Proc. of Fusion06, AIP, in press.
Nuclear Reaction in general
Heavy-ion Fusion Reactions
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x dependent
K.H., N. Takigawa, A.B. Balantekin, PRC56(‟97)2104
E dependent
Hamiltonian (example 3): more general cases
(note) Adiabatic limit: