Abstract
Theg-factor of the 21 + state of192Pt has been measured by the IPAC technique in an external magnetic field as:g(21 +,192Pt)=+0.287(17). An additional IPAC experiment with an192IrFe sample was performed with the same level in order to investigate the hyperfine field. The result:ω L τ(21 +,192PtFe)=0.1115(9) gives the hyperfine field:B 4.2khf (PtFe)=126.8(71) T. The result of an LTNO experiment with the same level is compatible with the assumption that 100% of the192Ir atoms were on unique sites.
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Benczer-Koller, N., Ballon, D.J., Pakou, A.: Hyp. Int.33, 37 (1987)
Stuchbery, A.E., Lampard, G.J., Bolotin, H.H.: Nucl. Phys. A528, 447 (1991)
Levy, R., Tsoupas, N., Shu, K.B., Lopez-Garcia, A., Andrejtscheff, W., Benczer-Koller, N.: Phys. Rev. C25, 293 (1982)
Katayama, I., Morinobu, S., Ikegami, H.: Hyp. Int.1, 113 (1975)
Mehta, D., Singh, S., Garg, M.L., Singh, N., Cheema, T.S., Trehan, P.N.: Z. Phys. A — Atomic Nuclei328, 31 (1987)
Grabowski, Z.W.: Phys. Rev.183, 1019 (1969)
Carter, G.C., Bennet, L.H., Kahan, D.J.: Metallic shifts in NMR. Oxford: Pergamon Press 1977
Raghavan, P.: At. Data Nucl. Data Tables42, 189 (1989)
Ronningen, R.M., Piercey, R.B., Ramaya, A.V., Hamilton, J.H., Raman, S., Stelson, P.H., Dagenhart, W.K.: Phys. Rev. C16, 571 (1977)
Gyapong, G.J., Spear, R.H., Fewell, M.P.: Nucl. Phys. A470, 415 (1987)
Shirley, V.S., Dairiki, J.M.: Nucl. Data Sheets40, 425 (1983)
Browne, E., Firestone, R.B.: Table of radioactive isotopes. New York: Wiley 1986
Herzog, P., Folle, H.-R., Freitag, K., Kluge, A., Reuschenbach, M., Bodenstedt, E.: Nucl. Instrum. Methods155, 421 (1978)
Shirley, V.S., Dairiki, J.M.: Nucl. Data Sheets40, 425 (1983)
Hagn, E., Leuthold, K., Zech, E., Ernst, H.: Z. Phys. A — Atoms and Nuclei295, 385 (1980)
Kern, J., et al.: Nucl. Phys. A534, 77 (1991)
Kumar, K., Baranger, N.: Nucl. Phys. A110, 529 (1968)
Weeks, K., Kishimoto, T.: Phys. Rev. C22, 1323 (1980)
Cameron, J.A.: Can. J. Phys.42, 1680 (1964)
Buyrn, A., Grodzins, L.: MIT Prog. Rep.2098, 251 (1964)
Keszthelyi, L., Berkes, I., Dezsi, I., Pocs, L.: Nucl. Phys.71, 662 (1965)
Agarval, Y.K., Baba, C.V.K., Bhattacherjee, S.K.: Nucl. Phys.79, 437 (1966)
Murray, J.: Ph.D. Thesis, Mac Master Univ. Hamilton, Ontario 1967
Kenyon, D.B., Keszthelyi, L., Cameron, J.A.: Can. J. Phys.47, 2395 (1969)
Levanoni, M., Zawislac, F.C., Cook, D.D.: Nucl. Phys. A144, 369 (1970)
Grabowski, Z.W.: Phys. Rev. C2, 1093 (1970)
Berand, T., Berkes, I., Chery, R., Haroutunian, R., Levy, M., Marguier, G., Marest, G., Rougny, R.: Phys. Rev. C1, 303 (1970)
Kontani, M., Itoh, J.: J. Phys. Soc. Jpn.22, 345 (1967)
Schütz, G., Hagn, E., Kienle, P., Zech, E.: Phys. Rev. Lett.56, 1051 (1986)
Shu, N.K.B., Melnik, D., Brennan, J.M., Semmler, W., Benczer-Koller, N.: Phys. Rev. C21, 1828 (1980)
Stuchbery, A.E., Ryan, C.G., Bolotin, H.H.: Hyp. Int.13, 275 (1983)
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This work has been supported by the Bundesminister für Forschung und Technologie (BMFT) under contract 06 BN 181
We thank N. Benczer-Koller for her suggestion of this experiment and the KFA Jülich for the neutron irradiation of our sample.
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Bodenstedt, E., Hamer, B., Herzog, P. et al. Measurement of theg-factor of the 21 + state of192Pt in an external magnetic field. Z. Physik A - Hadrons and Nuclei 342, 249–256 (1992). https://doi.org/10.1007/BF01291506
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DOI: https://doi.org/10.1007/BF01291506