Theg factor of the lowest 7+ state in100Rh and 6? state in104Rh

Bizzeti‐Sona, A. M.; Blasi, P.; Donvito, M.; Stefanini, A. A.; Bazzacco, D.; Brandolini, F.; Löwenich, K.; Pavan, P.; Rossi‐Alvarez, C.; Poli, M.; Haque, A. M. I.

doi:10.1007/bf01290182

Cited by 9 publications

(9 citation statements)

References 6 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In the calculations, K n and i n were approximated with constant values as listed in Table IV; the appropriate g n values were taken from Ref. [43]. The rotational gyromagnetic factor of g R = Z/A was used in the calculations, while the Q 0 electric quadrupole moments and the γ -shape parameters were derived from the nuclear shape predicted by the TRS calculations.…”

Section: Bandmentioning

confidence: 99%

Medium- and high-spin band structure of the chiral candidate132La

et al. 2013

Self Cite

View full text Add to dashboard Cite

Medium-and high-spin states of 132 La have been studied based on the data obtained from 100 Mo( 36 S, p3n) and 116 Cd( 23 Na, α3n) fusion-evaporation reactions using the EUROBALL and Gammasphere detector arrays, respectively. Triple-γ coincidence relations, angular correlations, and linear polarizations of the observed γ transitions have been deduced. The level scheme of 132 La has been considerably extended, and unambiguous spin and parity values have been assigned to most of the excited states. The configuration of one of the bands is πg 7/2 (h 11/2 ) 2 νh 11/2 instead of the previously thought πh 11/2 νh 11/2 ; thus its previously suggested magnetic rotational character cannot be upheld. The observed similarities between the level structures of 132 La and 134 Pr suggest the possible existence of a third πh 11/2 νh 11/2 band in 132 La that may show chiral features.

show abstract

Section: Bandmentioning

confidence: 99%

Medium- and high-spin band structure of the chiral candidate132La

et al. 2013

Self Cite

View full text Add to dashboard Cite

show abstract

“…[41]. The rotational gyromagnetic factor of g R = Z/A was used in the calculations, and the Q 0 electric quadrupole moments and the γ -shape parameters were derived from the nuclear shape predicted by the TRS calculations.…”

Section: A Configurations Of the Observed Bandsmentioning

confidence: 99%

High-spin structure ofAg105: Search for chiral doublet bands

et al. 2007

View full text Add to dashboard Cite

The high-spin structure of the 105 Ag nucleus has been studied by using the 100 Mo( 10 B, 5n) 105 Ag reaction to search for chiral doublet bands based on the three-quasiparticle πg 9/2 ν(h 11/2 ) 2 configuration. The level scheme of 105 Ag has been extended. New bands were found and the placement of the yrast πg 9/2 ν(h 11/2 ) 2 band was corrected. No side band to the yrast πg 9/2 ν(h 11/2 ) 2 band could be found in the present experiment. This observation indicates that the γ -soft shape in the 106 Ag changed to a more γ -rigid axially symmetric shape in the yrast 105 Ag configuration. However, a new pair of bands was observed to show the expected properties of a chiral doublet structure.

show abstract

“…[50,51]. In the calculation, the K and i x values were approximated with constant values, and these are listed in Table IV together with the appropriate g values taken from [52]. The rotational gyromagnetic factor was taken as g R = Z/A, while the Q 0 electric quadrupole moments and the γ shape parameters were derived from the nuclear shape predicted by the TRS calculations.…”

Section: B(m1; Imentioning

confidence: 99%

Medium- and high-spin band structure of the chiral-candidate nucleus134Pr

et al. 2011

View full text Add to dashboard Cite

Medium-and high-spin states of 134 Pr were populated using the 116 Cd( 23 Na, 5n) reaction and studied with the GAMMASPHERE spectrometer. Several new bands have been found in this nucleus, one of them being linked to the previously observed chiral-candidate twin-band structure. The ground state of 134 Pr could be determined through establishing a level structure that connects the two previously known long-lived isomeric states. Unambiguous spin-parity assignments for the excited states could be performed based on the known 2 − spin-parity of the ground state combined with the present experimental data. Intrinsic single-particle configurations have been assigned to the newly observed bands on the basis of the measured B(M1)/B(E2) ratios, alignments, band-crossing frequencies, bandhead spins, the observed single-particle configurations in the neighboring nuclei, and taking into account the predictions of total Routhian surface and tilted-axis cranking calculations.

show abstract

Theg factor of the lowest 7+ state in100Rh and 6? state in104Rh

Cited by 9 publications

References 6 publications

Medium- and high-spin band structure of the chiral candidate132La

Medium- and high-spin band structure of the chiral candidate132La

High-spin structure ofAg105: Search for chiral doublet bands

Medium- and high-spin band structure of the chiral-candidate nucleus134Pr

Contact Info

Product

Resources

About