Nuclear shapes of highly deformed bands in Hf-171,Hf-172 and neighboring Hf isotopes

Y C Zhang; W C Ma; A V Afanasjev; G B Hagemann; J Begnaud; M P Carpenter; P Chowdhury; D M Cullen; M K Djongolov; D J Hartley; R V F Janssens; T L Khoo; F G Kondev; T Lauritsen; E F Moore; E Ngijoi-Yogo; S Odegard; L L Riedinger; S V Rigby; D G Roux; D T Scholes; R B Yadav; J Y Zhang; S Zhu

Nuclear shapes of highly deformed bands in Hf-171,Hf-172 and neighboring Hf isotopes

Y C Zhang, W C Ma, A V Afanasjev, G B Hagemann, J Begnaud, M P Carpenter, P Chowdhury, D M Cullen, M K Djongolov, D J Hartley, R V F Janssens, T L Khoo, F G Kondev, T Lauritsen, E F Moore, E Ngijoi-Yogo, S Odegard, L L Riedinger, S V Rigby, D G RouxD T Scholes, R B Yadav, J Y Zhang, S Zhu

Research output: Contribution to journal › Article › peer-review

Abstract

A Gammasphere experiment was carried out to search for triaxial strongly deformed (TSD) structures in Hf-171,Hf-172 and the wobbling mode, a unique signature of nuclei with stable triaxiality. Three strongly deformed bands in Hf-172 and one in Hf-171 were identified through Ca-48(Te-128, xn) reactions. Linking transitions were established for the band in Hf-171 and, consequently, its excitation energies and spins (up to 111/2h) were firmly established. However, none of the Hf-172 sequences were linked to known structures. Experimental evidence of triaxiality was not observed in these bands. The new bands are compared with other known strongly deformed bands in neighboring Hf isotopes. Theoretical investigations within various models have been performed. Cranking calculations with the Ultimate Cranker code suggest that the band in Hf-171 and two previously proposed TSD candidates in Hf-170 and Hf-175 are built on proton (i(13/2)h(9/2)) configurations, associated with near-prolate shapes and deformations enhanced with respect to the normal deformed bands. Cranked relativistic mean-field calculations suggest that band 2 in Hf-175 has most likely a near-prolate superdeformed shape involving the pi i(13/2)circle times nu j(15/2) high-j intruder orbitals. It is quite likely that the bands in Hf-172 are similar in character to this band.

Original language	English
Number of pages	10
Journal	Physical Review C
Volume	76
Issue number	6
Publication status	Published - 2007

Keywords

PARTICLE-HOLE EXCITATIONS
MASS REGION
HIGH-SPIN
TRIAXIAL
SUPERDEFORMATION
WOBBLING EXCITATIONS
ROTATIONAL BANDS
LIFETIME
MEASUREMENTS
IDENTICAL BANDS
LU-161
STATES

Cite this

Zhang, Y. C., Ma, W. C., Afanasjev, A. V., Hagemann, G. B., Begnaud, J., Carpenter, M. P., Chowdhury, P., Cullen, D. M., Djongolov, M. K., Hartley, D. J., Janssens, R. V. F., Khoo, T. L., Kondev, F. G., Lauritsen, T., Moore, E. F., Ngijoi-Yogo, E., Odegard, S., Riedinger, L. L., Rigby, S. V., ... Zhu, S. (2007). Nuclear shapes of highly deformed bands in Hf-171,Hf-172 and neighboring Hf isotopes. Physical Review C, 76(6).

@article{c367377914384e04881af37566b02ed5,

title = "Nuclear shapes of highly deformed bands in Hf-171,Hf-172 and neighboring Hf isotopes",

abstract = "A Gammasphere experiment was carried out to search for triaxial strongly deformed (TSD) structures in Hf-171,Hf-172 and the wobbling mode, a unique signature of nuclei with stable triaxiality. Three strongly deformed bands in Hf-172 and one in Hf-171 were identified through Ca-48(Te-128, xn) reactions. Linking transitions were established for the band in Hf-171 and, consequently, its excitation energies and spins (up to 111/2h) were firmly established. However, none of the Hf-172 sequences were linked to known structures. Experimental evidence of triaxiality was not observed in these bands. The new bands are compared with other known strongly deformed bands in neighboring Hf isotopes. Theoretical investigations within various models have been performed. Cranking calculations with the Ultimate Cranker code suggest that the band in Hf-171 and two previously proposed TSD candidates in Hf-170 and Hf-175 are built on proton (i(13/2)h(9/2)) configurations, associated with near-prolate shapes and deformations enhanced with respect to the normal deformed bands. Cranked relativistic mean-field calculations suggest that band 2 in Hf-175 has most likely a near-prolate superdeformed shape involving the pi i(13/2)circle times nu j(15/2) high-j intruder orbitals. It is quite likely that the bands in Hf-172 are similar in character to this band.",

keywords = "PARTICLE-HOLE EXCITATIONS, MASS REGION, HIGH-SPIN, TRIAXIAL, SUPERDEFORMATION, WOBBLING EXCITATIONS, ROTATIONAL BANDS, LIFETIME, MEASUREMENTS, IDENTICAL BANDS, LU-161, STATES",

author = "Zhang, {Y C} and Ma, {W C} and Afanasjev, {A V} and Hagemann, {G B} and J Begnaud and Carpenter, {M P} and P Chowdhury and Cullen, {D M} and Djongolov, {M K} and Hartley, {D J} and Janssens, {R V F} and Khoo, {T L} and Kondev, {F G} and T Lauritsen and Moore, {E F} and E Ngijoi-Yogo and S Odegard and Riedinger, {L L} and Rigby, {S V} and Roux, {D G} and Scholes, {D T} and Yadav, {R B} and Zhang, {J Y} and S Zhu",

note = "ISI Document Delivery No.: 246DF Times Cited: 5 Cited Reference Count: 48 Cited References: AFANASJEV AV, 1996, NUCL PHYS A, V608, P107 AFANASJEV AV, 1996, NUCL PHYS A, V608, P176 AFANASJEV AV, 1999, PHYS REP, V322, P1 AFANASJEV AV, 1999, PHYS REV C, V59, P3166 AFANASJEV AV, 2000, NUCL PHYS A, V196, P676 AMRO H, 2001, PHYS LETT B, V506, P39 AMRO H, 2003, PHYS LETT B, V553, P197, DOI 10.1016/S0370-2693(02)03199-4 BAKTASH C, 1995, ANNU REV NUCL PART S, V45, P485 BENGTSSON R, 2004, EUR PHYS J A, V22, P355, DOI 10.1140/epja/i2004-10046-4 BENGTSSON T, 1985, NUCL PHYS A, V436, P14 BENGTSSON T, 1989, NUCL PHYS A, V496, P56 BENGTSSON T, 1990, NUCL PHYS A, V512, P124 BOHR A, 1975, NUCL STRUCTURE, V2 BRINGEL P, 2003, EUR PHYS J A, V16, P155, DOI 10.1140/epja/i2002-10117-6 BRINGEL P, 2005, EUR PHYS J A, V24, P167, DOI 10.1140/epja/i2005-10005-7 BRINGEL P, 2007, PHYS REV C, V75, ARTN 044306 CARLSSON BG, 2007, INT J MOD PHYS E, V16, P634 CULLEN DM, 1998, NUCL PHYS A, V638, P662 CULLEN DM, 2000, NUCL PHYS A, V673, P3 DJONGOLOV MK, 2003, PHYS LETT B, V560, P24, DOI 10.1016/S0370-2693(03)00328-9 GORGEN A, 2004, PHYS REV C, V69, ARTN 031301 HAMAMOTO I, 2002, PHYS REV C, V65, ARTN 044305 HAMAMOTO I, 2003, PHYS REV C, V67, ARTN 014319 HARTLEY DJ, 2005, PHYS LETT B, V608, P31, DOI 10.1016/j.physletb.2005.01.007 JENSEN DR, 2000, EUR PHYS J A, V8, P165 JENSEN DR, 2002, PHYS REV LETT, V89, ARTN 142503 JENSEN DR, 2004, EUR PHYS J A, V19, P173, DOI 10.1140/epja/i2003-10120-5 KRANE KS, 1973, NUCL DATA A, V11, P351 LEE IY, 1990, NUCL PHYS A, V520, P641 MATEV M, 2007, PHYS REV C, V76, ARTN 034304 MATSUZAKI M, 2002, PHYS REV C, V65, ARTN 041303 MATSUZAKI M, 2004, PHYS REV C, V69, ARTN 034325 NAZAREWICZ W, 1989, NUCL PHYS A, V503, P285 NEUSSERNEFFGEN A, 2006, PHYS REV C, V73, UNSP 034309 ODEGARD SW, 2001, PHYS REV LETT, V86, P5866 PATTABIRAMAN NS, 2007, PHYS LETT B, V647, P243, DOI 10.1016/j.physletb.2007.01.057 RADFORD DC, 1995, NUCL INSTRUM METH A, V361, P297 RAGNARSSON I, 1993, NUCL PHYS A, V557, C167 SCHMIDT KA, 2001, EUR PHYS J A, V12, P15 SCHNACKPETERSEN H, 1995, NUCL PHYS A, V594, P175 SCHOLES DT, 2004, PHYS REV C, V70, P4314 SCHONWASSER G, 2003, PHYS LETT B, V552, P9, DOI 10.1016/S0370-2693(02)03095-2 TORMANEN S, 1999, PHYS LETT B, V454, P8 VALOR A, 2000, NUCL PHYS A, V665, P46 VRETENAR D, 2005, PHYS REP, V409, P101, DOI 10.1016/j.physrep.2004.10.001 WALKER P, 1983, PHYSICA SCRIPTA T, V5, P29 WANG X, 2007, PHYS REV C, V75, ARTN 064315 WYSS R, 1988, PHYS LETT B, V215, P211 Zhang, Y. C. Ma, W. C. Afanasjev, A. V. Hagemann, G. B. Begnaud, J. Carpenter, M. P. Chowdhury, P. Cullen, D. M. Djongolov, M. K. Hartley, D. J. Janssens, R. V. F. Khoo, T. L. Kondev, F. G. Lauritsen, T. Moore, E. F. Ngijoi-Yogo, E. Odegard, S. Riedinger, L. L. Rigby, S. V. Roux, D. G. Scholes, D. T. Yadav, R. B. Zhang, Jing-Ye Zhu, S.",

year = "2007",

language = "English",

volume = "76",

journal = "Physical Review C",

issn = "2469-9993",

publisher = "American Physical Society",

number = "6",

}

Zhang, YC, Ma, WC, Afanasjev, AV, Hagemann, GB, Begnaud, J, Carpenter, MP, Chowdhury, P, Cullen, DM, Djongolov, MK, Hartley, DJ, Janssens, RVF, Khoo, TL, Kondev, FG, Lauritsen, T, Moore, EF, Ngijoi-Yogo, E, Odegard, S, Riedinger, LL, Rigby, SV, Roux, DG, Scholes, DT, Yadav, RB, Zhang, JY & Zhu, S 2007, 'Nuclear shapes of highly deformed bands in Hf-171,Hf-172 and neighboring Hf isotopes', Physical Review C, vol. 76, no. 6.

TY - JOUR

T1 - Nuclear shapes of highly deformed bands in Hf-171,Hf-172 and neighboring Hf isotopes

AU - Zhang, Y C

AU - Ma, W C

AU - Afanasjev, A V

AU - Hagemann, G B

AU - Begnaud, J

AU - Carpenter, M P

AU - Chowdhury, P

AU - Cullen, D M

AU - Djongolov, M K

AU - Hartley, D J

AU - Janssens, R V F

AU - Khoo, T L

AU - Kondev, F G

AU - Lauritsen, T

AU - Moore, E F

AU - Ngijoi-Yogo, E

AU - Odegard, S

AU - Riedinger, L L

AU - Rigby, S V

AU - Roux, D G

AU - Scholes, D T

AU - Yadav, R B

AU - Zhang, J Y

AU - Zhu, S

N1 - ISI Document Delivery No.: 246DF Times Cited: 5 Cited Reference Count: 48 Cited References: AFANASJEV AV, 1996, NUCL PHYS A, V608, P107 AFANASJEV AV, 1996, NUCL PHYS A, V608, P176 AFANASJEV AV, 1999, PHYS REP, V322, P1 AFANASJEV AV, 1999, PHYS REV C, V59, P3166 AFANASJEV AV, 2000, NUCL PHYS A, V196, P676 AMRO H, 2001, PHYS LETT B, V506, P39 AMRO H, 2003, PHYS LETT B, V553, P197, DOI 10.1016/S0370-2693(02)03199-4 BAKTASH C, 1995, ANNU REV NUCL PART S, V45, P485 BENGTSSON R, 2004, EUR PHYS J A, V22, P355, DOI 10.1140/epja/i2004-10046-4 BENGTSSON T, 1985, NUCL PHYS A, V436, P14 BENGTSSON T, 1989, NUCL PHYS A, V496, P56 BENGTSSON T, 1990, NUCL PHYS A, V512, P124 BOHR A, 1975, NUCL STRUCTURE, V2 BRINGEL P, 2003, EUR PHYS J A, V16, P155, DOI 10.1140/epja/i2002-10117-6 BRINGEL P, 2005, EUR PHYS J A, V24, P167, DOI 10.1140/epja/i2005-10005-7 BRINGEL P, 2007, PHYS REV C, V75, ARTN 044306 CARLSSON BG, 2007, INT J MOD PHYS E, V16, P634 CULLEN DM, 1998, NUCL PHYS A, V638, P662 CULLEN DM, 2000, NUCL PHYS A, V673, P3 DJONGOLOV MK, 2003, PHYS LETT B, V560, P24, DOI 10.1016/S0370-2693(03)00328-9 GORGEN A, 2004, PHYS REV C, V69, ARTN 031301 HAMAMOTO I, 2002, PHYS REV C, V65, ARTN 044305 HAMAMOTO I, 2003, PHYS REV C, V67, ARTN 014319 HARTLEY DJ, 2005, PHYS LETT B, V608, P31, DOI 10.1016/j.physletb.2005.01.007 JENSEN DR, 2000, EUR PHYS J A, V8, P165 JENSEN DR, 2002, PHYS REV LETT, V89, ARTN 142503 JENSEN DR, 2004, EUR PHYS J A, V19, P173, DOI 10.1140/epja/i2003-10120-5 KRANE KS, 1973, NUCL DATA A, V11, P351 LEE IY, 1990, NUCL PHYS A, V520, P641 MATEV M, 2007, PHYS REV C, V76, ARTN 034304 MATSUZAKI M, 2002, PHYS REV C, V65, ARTN 041303 MATSUZAKI M, 2004, PHYS REV C, V69, ARTN 034325 NAZAREWICZ W, 1989, NUCL PHYS A, V503, P285 NEUSSERNEFFGEN A, 2006, PHYS REV C, V73, UNSP 034309 ODEGARD SW, 2001, PHYS REV LETT, V86, P5866 PATTABIRAMAN NS, 2007, PHYS LETT B, V647, P243, DOI 10.1016/j.physletb.2007.01.057 RADFORD DC, 1995, NUCL INSTRUM METH A, V361, P297 RAGNARSSON I, 1993, NUCL PHYS A, V557, C167 SCHMIDT KA, 2001, EUR PHYS J A, V12, P15 SCHNACKPETERSEN H, 1995, NUCL PHYS A, V594, P175 SCHOLES DT, 2004, PHYS REV C, V70, P4314 SCHONWASSER G, 2003, PHYS LETT B, V552, P9, DOI 10.1016/S0370-2693(02)03095-2 TORMANEN S, 1999, PHYS LETT B, V454, P8 VALOR A, 2000, NUCL PHYS A, V665, P46 VRETENAR D, 2005, PHYS REP, V409, P101, DOI 10.1016/j.physrep.2004.10.001 WALKER P, 1983, PHYSICA SCRIPTA T, V5, P29 WANG X, 2007, PHYS REV C, V75, ARTN 064315 WYSS R, 1988, PHYS LETT B, V215, P211 Zhang, Y. C. Ma, W. C. Afanasjev, A. V. Hagemann, G. B. Begnaud, J. Carpenter, M. P. Chowdhury, P. Cullen, D. M. Djongolov, M. K. Hartley, D. J. Janssens, R. V. F. Khoo, T. L. Kondev, F. G. Lauritsen, T. Moore, E. F. Ngijoi-Yogo, E. Odegard, S. Riedinger, L. L. Rigby, S. V. Roux, D. G. Scholes, D. T. Yadav, R. B. Zhang, Jing-Ye Zhu, S.

PY - 2007

Y1 - 2007

N2 - A Gammasphere experiment was carried out to search for triaxial strongly deformed (TSD) structures in Hf-171,Hf-172 and the wobbling mode, a unique signature of nuclei with stable triaxiality. Three strongly deformed bands in Hf-172 and one in Hf-171 were identified through Ca-48(Te-128, xn) reactions. Linking transitions were established for the band in Hf-171 and, consequently, its excitation energies and spins (up to 111/2h) were firmly established. However, none of the Hf-172 sequences were linked to known structures. Experimental evidence of triaxiality was not observed in these bands. The new bands are compared with other known strongly deformed bands in neighboring Hf isotopes. Theoretical investigations within various models have been performed. Cranking calculations with the Ultimate Cranker code suggest that the band in Hf-171 and two previously proposed TSD candidates in Hf-170 and Hf-175 are built on proton (i(13/2)h(9/2)) configurations, associated with near-prolate shapes and deformations enhanced with respect to the normal deformed bands. Cranked relativistic mean-field calculations suggest that band 2 in Hf-175 has most likely a near-prolate superdeformed shape involving the pi i(13/2)circle times nu j(15/2) high-j intruder orbitals. It is quite likely that the bands in Hf-172 are similar in character to this band.

AB - A Gammasphere experiment was carried out to search for triaxial strongly deformed (TSD) structures in Hf-171,Hf-172 and the wobbling mode, a unique signature of nuclei with stable triaxiality. Three strongly deformed bands in Hf-172 and one in Hf-171 were identified through Ca-48(Te-128, xn) reactions. Linking transitions were established for the band in Hf-171 and, consequently, its excitation energies and spins (up to 111/2h) were firmly established. However, none of the Hf-172 sequences were linked to known structures. Experimental evidence of triaxiality was not observed in these bands. The new bands are compared with other known strongly deformed bands in neighboring Hf isotopes. Theoretical investigations within various models have been performed. Cranking calculations with the Ultimate Cranker code suggest that the band in Hf-171 and two previously proposed TSD candidates in Hf-170 and Hf-175 are built on proton (i(13/2)h(9/2)) configurations, associated with near-prolate shapes and deformations enhanced with respect to the normal deformed bands. Cranked relativistic mean-field calculations suggest that band 2 in Hf-175 has most likely a near-prolate superdeformed shape involving the pi i(13/2)circle times nu j(15/2) high-j intruder orbitals. It is quite likely that the bands in Hf-172 are similar in character to this band.

KW - PARTICLE-HOLE EXCITATIONS

KW - MASS REGION

KW - HIGH-SPIN

KW - TRIAXIAL

KW - SUPERDEFORMATION

KW - WOBBLING EXCITATIONS

KW - ROTATIONAL BANDS

KW - LIFETIME

KW - MEASUREMENTS

KW - IDENTICAL BANDS

KW - LU-161

KW - STATES

M3 - Article

SN - 2469-9993

VL - 76

JO - Physical Review C

JF - Physical Review C

IS - 6

ER -

Nuclear shapes of highly deformed bands in Hf-171,Hf-172 and neighboring Hf isotopes

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