Expanding the Chemical Space of Biocompatible Fluorophores: Nanohoops in Cells

New sideband partners of the yrast bands built on the pi(h11/2)nu(h11/2) configuration were identified in 55Cs, 57La, and 61Pm N = 75 isotones of 134Pr. These bands form with 134Pr unique doublet-band systematics suggesting a common basis. Aplanar solutions of 3D tilted axis cranking calculations for triaxial shapes define left- and right-handed chiral systems out of the three angular momenta provided by the valence particles and the core rotation, which leads to spontaneous chiral symmetry breaking and the doublet bands. Small energy differences between the doublet bands suggest collective chiral vibrations.

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The Clover: a new generation of composite Ge detectors

Duchêne

Beck

Twin

et al. 1999

Nuclear Instruments and Methods in Physics Research Section A:

319

208

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B(E2)Values inN150
Krücken
¹
,
Albanna
²
,
Bialik
³

et al. 2002
Phys. Rev. Lett.
188
8
104
1
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Lifetimes of states in 150Nd were measured using the recoil distance method following Coulomb excitation of 150Nd by a 132 MeV 32S beam. The experiment was performed at the Yale Tandem accelerator, employing the SPEEDY gamma-ray detector array and the New Yale Plunger Device. Reduced transition probabilities in 150Nd are compared to the predictions of the critical point symmetry X(5) of the phase/shape transition that occurs for the N = 90 rare earth isotones. Very good agreement was observed between the parameter-free (apart from scale) X(5) predictions and the low-spin level scheme of 150Nd, revealing this as the best case thus far for the realization of the X(5) symmetry.

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High-K multi-quasiparticle states in 254No

et al. 2010

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B(E2)values and phase coexistence in152Sm

et al. 1999

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Quadrupole Collectivity in Neutron-Rich Fe and Cr Isotopes

Crawford¹,

Clark²,

Fallon³

et al. 2013

Phys. Rev. Lett.

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Intermediate-energy Coulomb excitation measurements are performed on the N ! 40 neutron-rich nuclei 66;68 Fe and 64 Cr. The reduced transition matrix elements providing a direct measure of the quadrupole collectivity BðE2; 2 þ 1 ! 0 þ 1 Þ are determined for the first time in 68 Fe 42 and 64 Cr 40 and confirm a previous recoil distance method lifetime measurement in 66 Fe 40 . The results are compared to state-ofthe-art large-scale shell-model calculations within the full fpgd neutron orbital model space using the Lenzi-Nowacki-Poves-Sieja effective interaction and confirm the results of the calculations that show these nuclei are well deformed. DOI: 10.1103/PhysRevLett.110.242701 PACS numbers: 25.70.De, 27.50.+e For many decades the nuclear shell structure originally proposed by Mayer [1] and Jensen and coworkers [2], where energy gaps are predicted at specific nucleon numbers, was a paradigm of nuclear physics, as it was consistent with the experimental findings at or near the valley of beta stability. However, with the possibility of producing more exotic nuclei, the traditional magic numbers have been observed to be weakened or to disappear while new subshell gaps have emerged. In particular, the role of the proton-neutron tensor interaction has been recognized as driving changes in the shell structure [3]. Alterations to the effective single-particle orbital gaps can lead to enhanced particle-hole excitations, which are supported by deformation and pairing effects, and may give rise to new regions of well-developed nuclear deformation.A region of recent interest is that of the neutron-rich isotopes near N ¼ 40, below the 28 Ni isotopes. In many ways structurally similar to the ''island of inversion '' nuclei near N ¼ 20 [4], the Fe and Cr isotopes in this region have been experimentally observed to exhibit increasingly collective behavior, rather than the near-magic behavior naively expected assuming a robust N ¼ 40 subshell gap. In a schematic way, the development of collectivity moving from 28 Ni to 26 Fe and 24 Cr is understood as a result of a narrowing of the N ¼ 40 subshell closure and the enhancement of quadrupole collectivity through promotion of neutron pairs across the subshell gap. With the removal of protons from the 1f 7=2 orbital, the attractive tensor and central parts of the p-n interaction between 1f 7=2 proton holes and neutrons in the 1g 9=2 and 2d 5=2 orbits pull these neutron single-particle levels down in energy. At the same time, the repulsive tensor ð1f 7=2 Þ À1 À 1f 5=2 interaction dominates over the central attractive p-n interaction and drives the neutron 1f 5=2 orbital up, effectively quenching the N ¼ 40 gap. Looking at it another way, adding 12 neutrons to 48 Ca produces a gapless 60 Ca; as protons are added in the 1f 7=2 orbit, the repulsive interaction between the 1f 7=2 protons and the 1g 9=2 and 2d 5=2 neutrons and the strongly attractive 1f 7=2 -1f 5=2 interaction opens the N ¼ 40 gap up to its value in 68 Ni. The disappearance of the N ¼ 40 gap towards 60 Ca supports ...

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Possible assignment of chiral twin bands inI188r

et al. 2004

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High-spin states in the doubly-odd Z = 77 nucleus 188 Ir were populated in the 186 W͑ 7 Li,5n͒ reaction at 52 MeV. Two nearly degenerate ⌬I = 1 sequences with the same parity were established. Both bands have been assigned the h 9/2 i 13/2 configuration, based on the systematic behavior of these excitations in the Ir nuclei and on the measured values for the B͑M1͒ / B͑E2͒ ratios, and they are suggested as candidates for a chiral doublet.

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Collectivity and Configuration Mixing inPb186,188andPo194

Grahn

Dewald²,

Möller³

et al. 2006

Phys. Rev. Lett.

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Lifetimes of prolate intruder states in 186Pb and oblate intruder states in 194Po have been determined by employing, for the first time, the recoil-decay tagging technique in recoil distance Doppler-shift lifetime measurements. In addition, lifetime measurements of prolate states in 188Pb up to the 8+ state were carried out using the recoil-gating method. The B(E2) values have been deduced from which deformation parameters |beta2|=0.29(5) and |beta2|=0.17(3) for the prolate and the oblate bands, respectively, have been extracted. The results also shed new light on the mixing between different shapes.

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C. W. Beausang

Chiral Doublet Structures in Odd-OddN=75Isotones: Chiral Vibrations

The Clover: a new generation of composite Ge detectors

B(E2)Values inN150
Krücken
¹
,
Albanna
²
,
Bialik
³

et al. 2002
Phys. Rev. Lett.
188
8
104
1
View full text Add to dashboard Cite

High-K multi-quasiparticle states in 254No

B(E2)values and phase coexistence in152Sm

Quadrupole Collectivity in Neutron-Rich Fe and Cr Isotopes

Possible assignment of chiral twin bands inI188r

Collectivity and Configuration Mixing inPb186,188andPo194

Contact Info

Product

Resources

About

C. W. Beausang

Chiral Doublet Structures in Odd-OddN=75Isotones: Chiral Vibrations

The Clover: a new generation of composite Ge detectors

B(E2)Values inN150Krücken1, Albanna2, Bialik3 et al. 2002Phys. Rev. Lett.18881041View full textAdd to dashboardCite

High-K multi-quasiparticle states in 254No

B(E2)values and phase coexistence in152Sm

Quadrupole Collectivity in Neutron-Rich Fe and Cr Isotopes

Possible assignment of chiral twin bands inI188r

Collectivity and Configuration Mixing inPb186,188andPo194

Contact Info

Product

Resources

About

B(E2)Values inN150
Krücken
¹
,
Albanna
²
,
Bialik
³

et al. 2002
Phys. Rev. Lett.
188
8
104
1
View full text Add to dashboard Cite