Andrei Andreyev University of York on behalf of “ Astatine-Gold” Collaboration

21
Addendum to IS534: Part I: Beta-delayed fission, laser spectroscopy and shape- coexistence studies with At beams Part II: Delineating the island of deformation in the light Au isotopes by means of laser spectroscopy Andrei Andreyev University of York on behalf of “Astatine-Gold” Collaboration INTC, 26 th June 2013

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Addendum to IS534: “ P art I: B eta-delayed fission, laser spectroscopy and shape-coexistence studies with At beams Part II : Delineating the island of deformation in the light Au isotopes by means of laser spectroscopy. Andrei Andreyev University of York - PowerPoint PPT Presentation

Transcript of Andrei Andreyev University of York on behalf of “ Astatine-Gold” Collaboration

Page 1: Andrei Andreyev University of York on behalf of “ Astatine-Gold” Collaboration

Addendum to IS534: “Part I: Beta-delayed fission, laser spectroscopy and

shape-coexistence studies with At beams

Part II: Delineating the island of deformation in the light Au isotopes by means of laser spectroscopy

Andrei AndreyevUniversity of York

on behalf of “Astatine-Gold” Collaboration

INTC, 26th June 2013

Page 2: Andrei Andreyev University of York on behalf of “ Astatine-Gold” Collaboration

Astatine-Gold collaborationUniversity of York, United Kingdom

A. N. Andreyev, V. TruesdaleRILIS and ISOLDE, Geneva, Switzerland

S. Rothe, B. A. Marsh, A. M. Sjodin, T. C. Cocolios, V. N. Fedosseev M. D. SeliverstovInstitut für Physik, Johannes Gutenberg-Universität Mainz, Mainz, Germany

S. Raeder, K. D. A. Wendt

Instituut voor Kern- en Stralingsfysica, K.U. Leuven, Leuven, Belgium L. Ghys, C. Van Beveren, E. Rapisarda, D. Pauwels, D. Radulov, Yu. Kudryavtsev,

M. Huyse, P. Van Duppen

Comenius University, Bratislava, Slovakia S. Antalic, Z. Kalaninova

PNPI, Gatchina, Russian Federation A. Barzakh, D. V. Fedorov, P. Molkanov

University of Manchester, UKK. Lynch, I. Straschnov...

MR-TOF@ISOLTRAP team (IS518): S. Kreim, V. Manea, +...

Page 3: Andrei Andreyev University of York on behalf of “ Astatine-Gold” Collaboration

4th February 2010: LoI I086 “Development of Astatine ion beams with RILIS”

The Problem: Element At has no stable isotopes (longest T1/2=8h) Only ~68 mg of At present in the 1st mile of Earth’ core Must be produced/studied ‘on-line’ at an accelerator

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• Studies of the beta-delayed fission (bDF) in At isotopes (Paisley-Leuven-Bratislava-Geneva-Gent-Liverpool-Los Alamos-Tokai- collaboration)

• HFS, IS and charge radii measurements within the long chain of At isotopes, from the very neutron-deficient side, across the N=126 neutron closure, up to the most neutron-rich isotopes (Paisley-Leuven-Bratislava-Liverpool - collaboration)

• Shape coexistence in the lightest Po isotopes (b+/EC -decay products of At), in particular the search for coexisting oblate, prolate and spherical 0+ band-heads and corresponding excitations in the odd-A Po isotopes (Paisley-Leuven-Bratislava-Liverpool-JYFL-Warsaw - collaboration)

• Search for octupole collectivity in the neutron-rich Rn isotopes (beta-decay products of At) (Madrid, Oslo, Uppsala, Warsaw - collaboration)

• Few-nucleon transfer reactions of At isotopes to study single-particle around N=126 and multi-particle multi-hole structures in the neutron-deficient and neutron-rich isotopes. This would need beam energies from HIE ISOLDE.

Five Physics Cases for LoI I086

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First determination of the Ionization Potential for the radioactive element At

205At

5

• Ionization potential measured (scan of ionizing laser: converging Rydberg levels allow precise determination of the IP)

3 successful on-line development runs ISOLDE (Nov. 2010, May 2011)TRIUMF, Canada (Dec. 2010)

532

nm

224

nm

216

nm31

2 - 3

35 n

m

609-

645

nm

a) b) c)

795

nm

532

nm

44550 cm-1

0 cm-1

46234 cm-1

57157 cm-1

57269 cm-1

57277 cm-1

58805 cm-1

75151 cm-1

710-

915

nmd)

• Many new atomic levels found• Transition strengths measured

Total photon energy cm-1

Ion

coun

t int

ensi

ty a

.u.

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First determination of the Ionization Potential for the radioactive element At

Page 7: Andrei Andreyev University of York on behalf of “ Astatine-Gold” Collaboration

IS534: At and Au Charge Radii

Au?

At?

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Windmill System at ISOLDE

Annular Si Si

pure 30 keV beam from RILIS+ISOLDE

Setup: Si detectors from both sides of the C-foil

• Simple setup & DAQ: 4 PIPS (1 of them – annular)• Large geometrical efficiency (up to 80%)• 2 fold fission fragment coincidences• ff-gamma coincidences• Digital electronics

C-foils20 mg/cm2 Si detectors

30 keV beam from ISOLDE

SiAnnular Si

ff

ff

a

C-foil

MINIBALL Ge clusterA. Andreyev et al., PRL 105, 252502 (2010)

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Multi-Reflection Time-of-Flight (MR-ToF) Spectrometer

for HFS studies• The WM technique requires waiting for the decay of the isotope

(usually, a-decay, to provide selectivity between isotopes/isomers). Not practical for long-lived or stable isotopes (or for b-decaying)

• Alternative – to use ‘counting’ ions (instead of waiting for decay)

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IS534, May/October 2012 examples of alpha spectra from WM

RILIS+SOLDE, IS534

196At

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• Need ‘missing’ isotopes, need more spectra for some of measured• To complete the IS/HFS measurements we ask 10 shifts of 193-196,202,204,206,208,210,212,218,219At beams (WM/FC/MR-TOF)

HFS spectra for At isotopes (WM/FC/MR-TOF)

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May and June 2012: Mass Distributions Measurements via bDF of 194,196At and 200,202Fr

Gradual transition from asymmetry in 180Tl to a mixture of symmetric and asymmetric in 194,196At and 202Fr.

However: 194At has 2 isomers, thus it’s not clear yet if both or only one isomer fission?

We ask 3 shifts to perform the isomer separation (narrowband) and measure bDF

Fission Fragment Mass Courtesy L. Ghys, V. Truesdale

40 ff/h BB

8 ff/h BB

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9-12 October 2012: Laser spectroscopy of Au isotopes

177Au narrowband at gs

179Au narrowband at gs

-30000 -20000 -10000 0 10000 20000 30000 40000 50000

0

100

200N

NN

NN

N

181Au

I FC, p

A

, MHz

197Au

0

400

800

1200

200

600

1000

1400 179Au

0

40

80

120180Au

0

300

600

900

178mAu

178gAu

0

30

60

90

01020304050

177Au

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Hyperfine Splitting Scans for 178,185,191,197Au

Ground state

New isomeric state

191Au (MR-TOF)broadband

185AuBroadband (MR-TOF)

197Au (stable) narrowband (FC)

178Au (WM)broadband

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Are the lightest Au isotopes deformed?

?

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“Back to sphericity” in Au isotopes

• Deformation jump toward less deformed shapes in the light Au isotopes• Shape staggering in 178Au (large deformation difference between 2 states)

To complete Gold IS/HFS measurements for 175-184Au: 15 shifts

177 179 181 183 185 187 189 191 193 195 197 199 201

-1.0

-0.5

0.0

0.5

I=11/2

180Au, end of the "island of deformation"

a>0

literature, g.s. literature, m.s. WM, broadband, m.s.MR-ToF, broadband, g.s. MR-ToF, broadband, m.s. WM, narrowband, g.s. WM, narrowband, m.s.

I=3/2...7/2

I=1

b=0.35

I=2(?)

I=1/2

I=1, 2

I=1/2

b=0.0

b=0.1b=0.15b=0.2b=0.25b=0.4

<r2 > A

, 197

, fm

2

A

b=0.3

I=2...5a<0

186Au, begin of the "island of deformation"m

idsh

ell N

=104

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Beamtime requestAstatine isotopes (13 shifts in total):• 10 shifts to complete IS/HFS measurements for 193-196,202,204,206,208,210,212,218,219At (WM/FC/MR-TOF)

• 3 shifts for bDF of 194At@WM (isomer separation with RILIS)

Gold isotopes (18 shifts in total)• 10 shifts for HFS measurements of 175-181Au with WM

• 2 shifts for HFS measurements of 182,183Au with MR-TOF

• 3 shifts for HFS measurements of isomeric states in 187,191,193,195Au using ISOLTRAP's MR-TOF MS

• 3 shifts for mass measurements of isomeric states

• In total: 31 shifts of At and Au beams (most probably divided in 2 runs)

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18

Thank you!

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At vs Po charge radii

N=126Sph. LDM

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Plots: courtesy S. Rothe

216 nm

795 nm

IS217,205=~40 GHz 1.3 cm-1

IS217,205=~20 GHz 0.7 cm-1

LoI I086: At Laser Spectroscopy in Broadband Mode

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IS534: Hyperfine Splitting Scans (HFS) for 177,179Au

Calculations courtesy A.Barzakh (Gatchina)

179Au narrowband measured (WM)

179Au 3/2+ calculated179Au 1/2+ calculated

177Au narrowband measured (WM)

Ground state spins of 177,179Au are experimentally determined as 1/2+