Abstract
The yrast spectra withJ πmax = 6+,B(E2) transition probabilities and\(Q_{J^ + } \) values are calculated for even-even tellurium isotopes by carrying out Hartree-Fock-Bogoliubov (HFB) anstaz employing a pairing-plus-quadrupole-quadrupole effective interaction operating in a reasonably large valence space outside the100Sn core. Our calculations reproduce qualitatively the observed parabolic systematics of the low-lying yrast states as a function of mass number for tellurium isotopes. The results onB(E2) transition probabilities predict a dip in the isotopes114,118,124Te which might be construed to imply different structures for114,118,124Te as compared to their neighbours. Besides this, our results also reveal that both the HFB technique as well as the quadrupole-quadrupole-plus-pairing model of the two body interaction are fairly reliable in this mass region.
Similar content being viewed by others
References
Paul, E.S., Woods, P.J., Davinson, T., Page, R.D., Sellin, P.J., Beausang, C.W., Clark, R.M., Cunningham, R.A., Forbes, S.A., Fossan, D.B., Gizon, A., Gizon, J., Hauchild, K., Hibbert, I.M., James, A.N., LaFosse, D.R., Lazarus, I., Schnare, H., Simpson, J., Wadsworth, R., Waring, M.P.: Phys. Rev. C51, 78 (1995)
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.: Phys. Rev. C50, 698 (1994)
Paul, E.S., Andrews, H.R., Drake, T.E., DeGraaf, J., Janzen, V.P., Pilotte, S., Radford, D.C., Ward, D.: Phys. Rev. C50, R534 (1994)
Cizewski, J.A., Hotchkis, M.A.C., Durell, J.L., Copnell, J., Mowbray, A.S., Fitzgerald, J., Phillips, W.R., Ahmad, I., Carpenter, M.P., Janssens, R.V.F., Khoo, T.L., Moore, E.F., Morss, L.R., Benet, Ph., Ye, D.: Phys. Rev. C47, 1294 (1993)
Auerbach, K., Harms, B., Siepe, K., Wittkemper, G., Korner, H.J.: Phys. Lett.22, 299 (1966)
Borchers, R.R., Bronson, J.D., Murnick D.E., Grodzins, L.: Phys. Rev. Lett.17, 1099 (1966)
Warner, R.A., Draper J.E.: Phys. Rev. C1, 1069 (1970)
Chirsty, A., Hall, I., Harper, R.P., Naqib, I.M., Wakefield, B.: Nucl. Phys. A142, 591 (1970)
Kerek, A.: Nucl. Phys. A176, 466 (1971)
Barrette, J., Barrette, M., Haroutunian, R., Lamoureux, G., Monaro, S.: Phys. Rev. C10, 1166 (1974)
Kleinfield, A.M., Maggi, G., Werdecker, D.: Nucl. Phys. A248, 342 (1975)
Bockisch, A., Kleinfield, A.M.: Nucl.: Phys. A261, 498 (1976)
Shu, N.K.B., Levy, R., Tsoupas, N., Lopiz-Garcia, A., Andreitscheff, W., Benczer-Koller, N.: Phys. Rev. C24, 944 (1981)
Chowdhury, P., Piel, W.F., Fossan, D.B.: Phys. Rev. C25, 813 (1982)
Giannatiempo, A., Nannini, A., Perego, A., Sona, P.: Phys. Rev. C36, 2528 (1987)
Dunham, J.S., Westervelt, R.T., Avida, R., Hanna, S.S., Phys. Rev. C37, 2881 (1988)
Table of isotopes Lederer, C.M., Shirley, V.S. (eds.) 7th ed.
Raman, S., Malarkey, C.H., Milner, W.T., Nester, C.W., Jr., Stelson, P.H.: At. Data and Nucl. Data Tables36, 22 (1987)
Sakai, M.: At. Data and Nucl. Data Tables31, 413 (1984)
Robinson, S.J., Hamilton, W.D., Snelling, D.M.: J. Phys. G9, L71 (1983)
Mardirosian, G., Stewart, N.M.: Z. Phys. A315, 213 (1984)
Jianming, Y., Yunzuo, L., Diling, H.: Z. Phys. A331, 391 (1988)
Robinson, S.J., Hamilton, W.D., Snelling, D.M.: J. Phys. G9, 961 (1983)
Lopac, V.: Nucl. Phys. A155, 513 (1970)
Sorensen, B.: Nucl. Phys. A142, 411 (1970)
Auble, R.L., Sau, J.B., Fulmer, C.B.: Nucl. Phys. A116, 14 (1968)
Goswami, A., Lin, L.: Nucl. Phys. A186, 88 (1972)
Sau, J., Heyde, K., Chery, R.: Phys. Rev. C21, 405 (1980)
Rikovska, J., Stone, N.J., Walker, P.M., Walters, W.B.: Nucl. Phys. A505, 145 (1989)
Lee, C.S., Cizewski, J.A., Barker, D., Kumbartzki, G., Tanczyn, R., Henry, R.G., Farris, L.P.: Nucl. Phys. A530, 58 (1991)
Onishi, N., Yoshida, S.: Nucl. Phys.80, 367 (1966)
Baranger, M.: Phys. Rev.130, 1244 (1963)
Vergados, J.D., Kuo, T.T.S.: Phys. Lett. B35, 93 (1971)
Federman, P., Pittel, S., Compos, R.: Phys. Lett. B82, 9 (1979)
Baranger, M., Kumar, K.: Nucl. Phys. A110, 490 (1968)
Arima, A.: Nucl. Phys. A354, 19 (1981)
Kumar, K., Remaud, B., Aguer, P., Vaagen, J.S., Rester, A.C., Foucher, R., Hamilton, J.H.: Phys. Rev. C16, 1235 (1977)
Faessler, A., Lin, L., Wittman, F.: Phys. Lett. B44, 127 (1973)
Nair, S.C.K., Ansari, A.: Phys. Lett. B47, 200 (1973)
Das Gupta, S., Van Ginneken, A.: Phys. Rev.164, 1320 (1967)
Grodzins, L.: Phys. Lett.2, 88 (1962)
Mach, H., Warburton, E.K., Krips, W., Gill, R.L., Moszynski, M.: Phys. Rev. C42, 568 (1990)
Khosa, S.K., Tripathi, P.N., Sharma, S.K.: Phys. Lett. B119, 257 (1982)
Mottlelson, B.R.: Many Body Problem, DeWitt, C. (eds.), p. 289 Wiley: New York 1959
Bohr, A., Mottelson, B.R.: Nuclear Structure Vol. II, p. 515. New York Reading, Benjamin, 1975
Tripathi, P.N., Sharma, S.K.: Phys. Rev. C34, 1081 (1986)
Faessler, A.: Proceedings of the Conf. on High Angular Momentum Properties of Nuclei. Johnson, N.R.: (eds.) Oak Ridge 1982, New York: Harwood Academic 1983
Praharaj, C.R.: Phys. Lett. B119, 17 (1982)
Author information
Authors and Affiliations
Additional information
Communicated by X. Campi
Rights and permissions
About this article
Cite this article
Devi, R., Khosa, S.K. E2 transition and\(Q_{J^ + } \) systematics of even mass tellurium nucleisystematics of even mass tellurium nuclei. Z. Phys. A — Hadrons and Nuclei 354, 45–51 (1996). https://doi.org/10.1007/s002180050011
Received:
Revised:
Issue Date:
DOI: https://doi.org/10.1007/s002180050011