paul garrett university of guelph - zfj.fuw.edu.pl
TRANSCRIPT
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Paul GarrettUniversity of Guelph
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• Liquid drop model was first used to describe static nuclear properties (Gamow, Proc. Roy. Soc. [A] 136, 386 (1929))
• Dynamic properties of liquid drop (Bohr, Mat. Fys. Medd. Dan. Vid. Selsk.14, no. 10 (1937) ) – possibility of vibrational oscillations of nucleus discussed, and first estimation of energy, ≈ 1 MeV, given
• Describing the nuclei as a liquid drop leads to the idea of collective coordinates – ignore motions of individual nucleons and treat nucleus as a continuous medium
• Surface parameterized as
where are the collective coordinates which are time dependent –this allows for vibrations of the surface
( ) ( )
+= ∑ ∑
∞
= −=0
*0 ,)(1,,
λ
λ
λµλµλµ ϕϑαφϑ YtRtR
)(* tλµα
4/25/2019 Paul Garrett, Warsaw seminar 2
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• Assuming a charged liquid drop, E will have 3 terms E = T + EC + ES
where T is the kinetic term, EC the Coulomb energy, and ES the surface energy• The Coulomb and surface energies leads to the form
and the kinetic energy
resulting in the Hamiltonian
This is nothing more than a simple harmonic oscillator with frequency
2
21 ∑
λµλµλ αC
22
21
21 ∑∑ = λµ
λλµλµλ πα
BB
∑
+=λµ
λµλ
λµλ
απ22
221 CB
H
λ
λλω
BC
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• Hamiltonian can be cast into form
where bλµ ( bλµ ) is a phonon creation (annihilation) operator
• The terms in order of importance (for small amplitude motion and low excitation energies) are λ=2 (quadrupole vibrations), λ=3 (octupole vibrations), etc.
• For quadrupole vibrations
{ }∑ += +
λµλµλµω 2
1ˆ bbhH+
( )25
2 += nEn ω
4/25/2019 4Paul Garrett, Warsaw seminar
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ħω2
2ħω2
3ħω2
0 0+
2+
0,2,4+
0,2,3,4,6+
E2
E2
E2
E2
4ħω2 0,2,2,4,4,5,6,8+
Δn = ±1
Courtesy of M. Itoh and Y. Fujita
Transitions are enhanced –typically 10’s of single-particle units (W.u.)
5Paul Garrett, Warsaw seminar
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4/25/2019 Paul Garrett, Warsaw seminar 6
β2
Region of low deformation, expect near-spherical vibrators
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• Use expectations of harmonic vibrator as a guide for multiphonon states
Arrows = B(E2) values relative to 2+ → 0+
4/25/2019 Paul Garrett, Warsaw seminar 7
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Mo
Ru
Pd
Cd
Te
Xe
Sr
Se 8
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For good spherical vibrational, or U(5), candidates, Kern et al. considered:• Excitation spectrum – existence of a full set of two-phonon states, and
perhaps even 3-phonon states• E4/E2 ratio approximately 2• Energies could be fit with the U(5) energy formula• The ∆N = 1 E2 transitions strongly favoured over possible decays
Now consider expanded criteria: • Smooth evolution of states as a function of A• Enhanced set of B(E2) values between phonon states • Deformation parameters extracted from Coulomb excitation or
inelastic scattering follow expectations• Consistent transfer results
• One-phonon states may be strongly populated in SNT, but multiphonon should have (ideally) zero spectroscopic strengths
• Weak populations in two-nucleon transfer
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• Considering only energies and branching ratios would lead to conclusion that 124Sn is a good harmonic vibrational nucleus• E(4+)/E(2+) ratio is 1.86• Energy spread of 2-phonon
triplet is only 90 keV• Relative B(E2) strongly favour
decay to one-phonon 2+ state• Absolute B(E2) values
immediately rule out harmonic vibrations
4/25/2019 Paul Garrett, Warsaw seminar 10
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4/25/2019 11
gs 0+
618 2+
1224 0+
30 W.u.
1312 2+1415 4+
Paul Garrett, Warsaw seminar
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• Appear to have the right levels and decays
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gs 0+
618 2+
1224 0+
30 W.u.
1312 2+1415 4+
51 W.u.15 W.u.61 W.u.
Paul Garrett, Warsaw seminar
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• Appearance of additional 0+ and 2+ states with enhanced E2 decays systematic in Cd isotopes near midshell
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gs 0+
618 2+
1224 0+
30 W.u.
1312 2+1415 4+
51 W.u.15 W.u.61 W.u.
1433 0+1468 2+80 W.u.
51 W.u.
Paul Garrett, Warsaw seminar
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• Detailed spectroscopy on 110Cd via β-decay reveals in-band transitions
• “Extra” states in vicinity of 2-phonon triplet explained as part of “intruder” band
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R. Meyer and L. Peker, Z.Phys. A283, 379 (1977)
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4/25/2019 Paul Garrett, Warsaw seminar 15
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4/25/2019 Paul Garrett, Warsaw seminar 16
Heyde and Wood, RMP 83, 1467 (2011)
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4/25/2019 Paul Garrett, Warsaw seminar 17
Figure from Rowe & Wood
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• In normal or superfluid nuclei, the two-nucleon-transfer should be dominated by ground state–to ground state transitions – typically >95% of L=0 strength to the ground state
• Near Z=50, two-proton transfer strongly populates excited 0+
state – reminiscent of proton pairing vibration – 2p-2hexcitation across Z=50 closed shell
4/25/2019 Paul Garrett, Warsaw seminar 18
Fielding et al., Nucl.Phys. A281, 392 (1977)
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• Te target – protons in 2p state• Removal of α particle favours population of 0p-0h (gs) or
2p-2h state (intruder)
4/25/2019 Paul Garrett, Warsaw seminar 19
Ed=33 MeVJanecke et al, NPA 325, 340 (1979)
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4/25/2019 Paul Garrett, Warsaw seminar 20
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• 0+ intruder band head has enhanced decay to 1-phonon state, but 0+
“two-phonon” does not – e.g. 112Cd
4/25/2019 Paul Garrett, Warsaw seminar 21
Intruder band
112Cd
Very small of 03+ →21
+ B(E2) and enhancement of 02+ (shape coexisting
band head) →21+ B(E2) was explained as consequence of strong mixing
between intruder configuration and “normal” phonon states
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Paul Garrett, Warsaw seminar 22
PG et al., Phys. Rev. C 86, 044304 (2012)
B(E2) in W.u.
4/25/2019
Transitions labelled with B(E2) values in W.u.
If mixing were the underlying cause of the decay pattern, would expect much larger variation in the B(E2) values
Intruder band head
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• Most detailed Coulex study to date on Cd isotopes [Fahlander, NPA 485, 317 (1988)] 16O, 40Ca, 58Ni, 208Pb on 114Cd
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β=0.187(3)<cos3δ>~0.2
β=0.33
β=0.28(3)<cos3δ>~0.9
prolate
𝟏𝟏𝟓𝟓𝑸𝑸𝟐𝟐=∑𝒊𝒊�𝟎𝟎 𝑴𝑴(𝑬𝑬𝟐𝟐) ⟩𝟐𝟐𝒊𝒊 ⟨𝟐𝟐𝒊𝒊 𝑴𝑴(𝑬𝑬𝟐𝟐) ⟩𝟎𝟎 𝟐𝟐 𝟐𝟐 𝟎𝟎
𝟎𝟎 𝟎𝟎 𝟐𝟐
𝑸𝑸𝟐𝟐 =𝟑𝟑𝟒𝟒𝝅𝝅
𝒁𝒁𝑹𝑹𝟎𝟎𝟐𝟐𝟐𝟐
𝜷𝜷𝟎𝟎𝟐𝟐
B(E2) W.u.
Paul Garrett, Warsaw seminar
Intruder bandYrast
band
Intruder band
harmonic vibrator value
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4/25/2019 Paul Garrett, Warsaw seminar 24
Conv. Elec. ILL BILL/GAMSMheemeed NP A412 113 1984
β,γ values Fahlander NP A485, 317 (1988)a2 ~ 0.08
a2 ~ 0.002
a2 ~ 0.004
β = 0.19, γ = 27º
β = 0.27, γ = 9.5º
β = 0.33, γ = 30º
With β and γ established from Coulex, and knowledge of ρ2(E0) values, we can
extract the mixing amplitudes
Mixing between configurations (generally) weak
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• While mixing is small, important consequences: Consider 114Cd
• Write 0+ wave functions
• Assume:• inband 2+→ 0+ transitions equal the observed values
(since weak mixing) 2B+→ 0B
+ = 65 ± 9 W.u.• 2B
+ → 0A+ = 0
with admixture of 8% results in calculated B(E2;02
+ →21+) = 26 ± 4 W.u.
consistent with observed value of 27.4 ± 1.7 W.u.
25
0𝑔𝑔𝑔𝑔+ > = 𝑎𝑎 0𝐴𝐴+ > +𝑏𝑏|0𝐵𝐵+ >
0𝐼𝐼+ > = −𝑏𝑏 0𝐴𝐴+ > +𝑎𝑎|0𝐵𝐵+ >
Important contribution to 02+→ 21
+ E2 strength from mixing, although mixing is weak
B(E2) W.u.
Intruderband
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4/25/2019 Paul Garrett, Warsaw seminar 26
The favoured and enhanced decay of the excited non-intruder 0+
state to the 22+
state, rather than 21
+ state, common feature in Cd, Te, Pd, Ru, Mo, Xe,…Structure of non-intruder states NOT that of a spherical vibrator
Shape coexisting structureB(E2) in W.u.
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• Detailed Coulomb excitation studies enable extraction of shape-invariants clearly indicating different shapes for 01
+ and 02+ states
27
Zielinska et al., NPA 712, 3 (2002), Wrzosek-Lipska et al., PRC 86 064305 (2012)
prolate
oblate
triaxial
103ρ2(E0)B(E2) (Wu)
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Mo
Ru
Pd
Cd
Te
Xe
Sr
X X X X
X X
XXXXX
X X X
X X
XX
XX
Combining data from multiple probes, we can
rule our a harmonic
vibrational picture for most
of the vibrational candidates
28
If these nuclei are not spherical vibrators, what
are their underlying structures?
Garrett, Wood, and Yates, Physica. Scripta, 93, 063001 (2018).
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Garrett et al., PRC 78, 044307 (2008)
• 0A+ level was
considered as π2p-4hintruder band head
• 0B+ level was
considered as 2-phonon vibrational state mixed with intruder
• 04+ also displays a
“V”-shaped pattern
• Behaviourunexpected for phonon excitations
Paul Garrett, Warsaw seminar 294/25/2019
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• Enhanced 04+ →23
+ decay observed in 114Cd
Paul Garrett, Warsaw seminar 30
Absolute B(E2) in W.u.Relative B(E2)values
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• Stable even-even Cd isotopes studied with neutron inelastic scattering at University of Kentucky • Detailed spectroscopy of low-spin
states• Lifetimes from DSAM
• 110,112Cd studied via β-decay using 8π spectrometer at TRIUMF-ISAC
Paul Garrett, Warsaw seminar 314/25/2019
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Paul Garrett, Warsaw seminar 32
0
617
1416
0+
2+
4+
13122+
18710+
1253
Transitions in keV
360
2+ 2231 2+ 2156
286
112Cd
286-keV transition is a 7.9(33)×10−4 γ branch from 2156-keV level, 34(15) W.u. transition
4/25/2019
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• Transitions labelled with B(E2) in W.u.• Square brackets indicate relative B(E2) values• Very weak transitions removed
Paul Garrett, Warsaw seminar 334/25/2019
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Paul Garrett, Warsaw seminar 34
24+ 2287
21+ 658
45+ 2706
418
1630
418-keV transition has branching ratio = 0.0057(3), resulting in B(E2;45
+→24+) = 55 ± 14W.u.
4/25/2019
24+
45+
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• Results from 7+ 110In decay
Paul Garrett, Warsaw seminar 35
5+ 3008
4+ 1542
3+ 2162
4+ 2220
6+ 2480
5- 2540
5- 2660
6+ 3121
114
6+ 2876
4/25/2019
1466
528
469
349132
788
847
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• Transitions labelled with B(E2) in W.u.• Square brackets indicate relative B(E2) values• Very weak transitions removed
Paul Garrett, Warsaw seminar 364/25/2019
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• BMF calculations using symmetry-conserving configuration method (SCCM) with GognyD1S energy-density functional
• Exact angular momentum and particle number restoration
• Includes axial and non-axial shape mixing
• Occupation numbers for 0+ states computed using the 0s, 0p, 1s0d, 1p0f, and 0g9/2 orbits as the reference to define the particle-hole structure for both protons and neutrons
Paul Garrett, Warsaw seminar 37
Wave function probability distributions in (β,γ) plane
Calculations by T. Rodriguez, Madrid4/25/2019
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Paul Garrett, Warsaw seminar 38
• 01+ – β ≈ 0.25 prolate
• 02+ – β ≈ 0.5, γ ≈ 20°
• 03+ – β ≈ 0.35 oblate
• 04+ – β ≈ 0.35 prolate
• Favoured decays of 02+→21
+, 03
+→22+, 04
+→23+ reproduced
4/25/2019
-0.60 eb-0.40(3) eb
experiment
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Paul Garrett, Warsaw seminar 39
• 01+ – β ≈ 0.25 prolate
• 02+ – β ≈ 0.5, γ ≈ 20°
• 03+ – β ≈ 0.35 oblate
• 04+ – β ≈ 0.35 prolate
• Favoured decays of 02+→21
+, 03
+→22+, 04
+→23+ reproduced
4/25/2019
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• Description of the Cd isotopes as spherical vibrators – the paradigms of harmonic vibrational motion – fails• 0+ two-phonon strength appears nonexistent • We don’t have a full 2-phonon triplet – E2 strength from 0+
intruder band head to 2+ one-phonon entirely consistent with weak mixing of the 0+ states.
• Only the yrast band appears to follow vibrational pattern in its B(E2)’s
• In many, if not all, of the vibrational candidate nuclei near Z=50, the 02
+ state is a shape-coexisting state• Proven conclusively with detailed Coulex studies in some cases
• BMF calculations suggest the intriguing possibility of multiple shape coexistence in the stable mid-shell Cd isotopes• This needs to be thoroughly tested – program under way to do
this at HIL and LNL
4/25/2019 Paul Garrett, Warsaw seminar 40
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• Existence of levels, and their energies are NOT a good indicator of vibrational structure• Often misleading and appear vibrational when they are not
• B(Eλ) values are a necessary, but not sufficient, condition to establish multiphonon states
• Ideally, detailed Coulomb excitation and formation of rotational invariants are required to firmly establish vibrational nature
• Firm benchmarks need to be established in stable nuclei – when probed in detail, the best examples of vibrational nuclei are failing the test • Are their any nuclei that pass the stringent tests?
• Quadrupole vibrational phonon does not appear to be a “robust” boson – a fragile object that appears, at best, can only be coupled in an aligned manner
4/25/2019 Paul Garrett, Warsaw seminar 41
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• Fribourg/Köln – Jan Jolie• University of Kentucky – Steve Yates• Georgia Tech – John Wood• Warsaw – Kasia Wrzosek-Lipska• Madrid – T. Rodriguez• …and the students/post-docs at Guelph who have led the analysis: Katie
Green, Alejandra Diaz Varela, Drew Jamieson, Andrew Finlay, ChandanaSumithrarachchi, and the rest of the University of Guelph group
424/25/2019 Paul Garrett, Warsaw seminar