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Deformed intruder band in Te112: First evidence for rotational behavior in the tellurium isotopes

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Deformed intruder band in Te112: First evidence for rotational behavior in the tellurium isotopes. / Paul, E.S.; Beausang, C.W.; Forbes, S.A.; Gale, S.J.; James, A.N.; Jones, P.M.; Joyce, M.J.; Andrews, H.R.; Janzen, V.P.; Radford, D.C.; Ward, D.; Clark, R.M.; Hauschild, K.; Hibbert, I.M.; Wadsworth, R.; Cunningham, R.A.; Simpson, J.; Davinson, T.; Page, R.D.; Sellin, P.J.; Woods, P.J.; Fossan, D.B.; LaFosse, D.R.; Schnare, H.; Waring, M.P.; Gizon, A.; Gizon, J.; Drake, T.E.; DeGraaf, J.; Pilotte, S.

In: Physical Review C, Vol. 50, 1994, p. 698-706.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Paul, ES, Beausang, CW, Forbes, SA, Gale, SJ, James, AN, Jones, PM, Joyce, MJ, Andrews, HR, Janzen, VP, Radford, DC, Ward, D, Clark, RM, Hauschild, K, Hibbert, IM, Wadsworth, R, Cunningham, RA, Simpson, J, Davinson, T, Page, RD, Sellin, PJ, Woods, PJ, Fossan, DB, LaFosse, DR, Schnare, H, Waring, MP, Gizon, A, Gizon, J, Drake, TE, DeGraaf, J & Pilotte, S 1994, 'Deformed intruder band in Te112: First evidence for rotational behavior in the tellurium isotopes', Physical Review C, vol. 50, pp. 698-706. https://doi.org/10.1103/PhysRevC.50.698

APA

Paul, E. S., Beausang, C. W., Forbes, S. A., Gale, S. J., James, A. N., Jones, P. M., Joyce, M. J., Andrews, H. R., Janzen, V. P., Radford, D. C., Ward, D., Clark, R. M., Hauschild, K., Hibbert, I. M., Wadsworth, R., Cunningham, R. A., Simpson, J., Davinson, T., Page, R. D., ... Pilotte, S. (1994). Deformed intruder band in Te112: First evidence for rotational behavior in the tellurium isotopes. Physical Review C, 50, 698-706. https://doi.org/10.1103/PhysRevC.50.698

Vancouver

Paul ES, Beausang CW, Forbes SA, Gale SJ, James AN, Jones PM et al. Deformed intruder band in Te112: First evidence for rotational behavior in the tellurium isotopes. Physical Review C. 1994;50:698-706. https://doi.org/10.1103/PhysRevC.50.698

Author

Paul, E.S. ; Beausang, C.W. ; Forbes, S.A. ; Gale, S.J. ; James, A.N. ; Jones, P.M. ; Joyce, M.J. ; Andrews, H.R. ; Janzen, V.P. ; Radford, D.C. ; Ward, D. ; Clark, R.M. ; Hauschild, K. ; Hibbert, I.M. ; Wadsworth, R. ; Cunningham, R.A. ; Simpson, J. ; Davinson, T. ; Page, R.D. ; Sellin, P.J. ; Woods, P.J. ; Fossan, D.B. ; LaFosse, D.R. ; Schnare, H. ; Waring, M.P. ; Gizon, A. ; Gizon, J. ; Drake, T.E. ; DeGraaf, J. ; Pilotte, S. / Deformed intruder band in Te112: First evidence for rotational behavior in the tellurium isotopes. In: Physical Review C. 1994 ; Vol. 50. pp. 698-706.

Bibtex

@article{e1c5c1bafbd84761a784f059790f0ba7,
title = "Deformed intruder band in Te112: First evidence for rotational behavior in the tellurium isotopes",
abstract = "States in the neutron-deficient 110,112Te isotopes have been populated following 58Ni+58,60Ni reactions. Gamma-ray coincidence data were acquired with the Eurogam spectrometer in conjunction with the Daresbury recoil separator and with the Chalk River 8π spectrometer. Although the low lying yrast states are not collective in these nuclei, a long regular cascade of transitions, indicating collective behavior, was found in 112Te extending to high spin. This structure is interpreted in terms of a deformed 4-particle 2-hole 0+2 state coupled to rotationally aligned quasiparticles, and represents the first example of a rotational {\textquoteleft}{\textquoteleft}intruder{\textquoteright}{\textquoteright} band in the tellurium isotopes.",
author = "E.S. Paul and C.W. Beausang and S.A. Forbes and S.J. Gale and A.N. James and P.M. Jones and M.J. Joyce and H.R. Andrews and V.P. Janzen and D.C. Radford and D. Ward and R.M. Clark and K. Hauschild and I.M. Hibbert and R. Wadsworth and R.A. Cunningham and J. Simpson and T. Davinson and R.D. Page and P.J. Sellin and P.J. Woods and D.B. Fossan and D.R. LaFosse and H. Schnare and M.P. Waring and A. Gizon and J. Gizon and T.E. Drake and J. DeGraaf and S. Pilotte",
year = "1994",
doi = "10.1103/PhysRevC.50.698",
language = "English",
volume = "50",
pages = "698--706",
journal = "Physical Review C",
issn = "0556-2813",
publisher = "American Physical Society",

}

RIS

TY - JOUR

T1 - Deformed intruder band in Te112: First evidence for rotational behavior in the tellurium isotopes

AU - Paul, E.S.

AU - Beausang, C.W.

AU - Forbes, S.A.

AU - Gale, S.J.

AU - James, A.N.

AU - Jones, P.M.

AU - Joyce, M.J.

AU - Andrews, H.R.

AU - Janzen, V.P.

AU - Radford, D.C.

AU - Ward, D.

AU - Clark, R.M.

AU - Hauschild, K.

AU - Hibbert, I.M.

AU - Wadsworth, R.

AU - Cunningham, R.A.

AU - Simpson, J.

AU - Davinson, T.

AU - Page, R.D.

AU - Sellin, P.J.

AU - Woods, P.J.

AU - Fossan, D.B.

AU - LaFosse, D.R.

AU - Schnare, H.

AU - Waring, M.P.

AU - Gizon, A.

AU - Gizon, J.

AU - Drake, T.E.

AU - DeGraaf, J.

AU - Pilotte, S.

PY - 1994

Y1 - 1994

N2 - States in the neutron-deficient 110,112Te isotopes have been populated following 58Ni+58,60Ni reactions. Gamma-ray coincidence data were acquired with the Eurogam spectrometer in conjunction with the Daresbury recoil separator and with the Chalk River 8π spectrometer. Although the low lying yrast states are not collective in these nuclei, a long regular cascade of transitions, indicating collective behavior, was found in 112Te extending to high spin. This structure is interpreted in terms of a deformed 4-particle 2-hole 0+2 state coupled to rotationally aligned quasiparticles, and represents the first example of a rotational ‘‘intruder’’ band in the tellurium isotopes.

AB - States in the neutron-deficient 110,112Te isotopes have been populated following 58Ni+58,60Ni reactions. Gamma-ray coincidence data were acquired with the Eurogam spectrometer in conjunction with the Daresbury recoil separator and with the Chalk River 8π spectrometer. Although the low lying yrast states are not collective in these nuclei, a long regular cascade of transitions, indicating collective behavior, was found in 112Te extending to high spin. This structure is interpreted in terms of a deformed 4-particle 2-hole 0+2 state coupled to rotationally aligned quasiparticles, and represents the first example of a rotational ‘‘intruder’’ band in the tellurium isotopes.

U2 - 10.1103/PhysRevC.50.698

DO - 10.1103/PhysRevC.50.698

M3 - Journal article

VL - 50

SP - 698

EP - 706

JO - Physical Review C

JF - Physical Review C

SN - 0556-2813

ER -