Abstract
Energies and relative intensities ofγ-ray transitions in the decay of63Zn have been measured with a Ge(Li) spectrometer in an anti-Compton anti-annihilation set up. Gamma-gamma coincidences and the “energy level spectrum” have been measured. Some aspects of the resulting decay scheme are compared with existing theoretical predictions.
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Verheul, H.: Nuclear Data B2-3-31, ed. by K. Way. New York, London: Academic Press (1967)
Alston III, W.J., Wilson, H.H., Booth, E.C.: Nucl. Phys. A116, 281 (1969)
Swann, C.P.: Bull. Am. Phys. Soc.17, 559 (1972)
Borchert, I.: Z. Physik223, 473 (1969)
Kiuru, A., Holmberg, P.: Z. Physik233, 146 (1970)
Giesler, G.C.: Thesis, Michigan State University, 1971
Konijn, J., Goudsmit, P.F.A., Lingeman, E.W.A.: Nucl. Instr. Methods109, 83 (1973)
Lieshout, R. van, Wapstra, A.H., Ricci, R.A., Girgis, R.K.: Scintillation spectra analysis. In: Alpha-, beta- and gamma-ray spectroscopy, ed. by K. Siegbahn. Amsterdam: North Holland Publishing Co. 1965
Koldewijn, P., Leenaarts, H.W.: Verhandlungen der Deutschen Physikalischen Gesellschaft, Frühjahrungstagung Eindhoven S. 578 (1970)
Birstein, L., Harchol, M., Jaffe, A.A., Tsukrovitz, A.: Nucl. Phys.84, 81 (1966)
Lederer, C.M., Hollander, J.M., Perlman, I.: Table of isotopes. New York: John Wiley & Sons 1967
Jager, J. de, Boeker, E.: to be published
Klaasse, A.A.C., Goudsmit, P.F.A., Witt Huberts, P.K.A. de: to be published
Robinson, R.L., Grabowski, Z.W.: Nucl. Phys. A191, 225 (1972)
Markham, R.G., Fulbright, H.W.: Nucl. Phys. A203, 244 (1973) and University of Rochester Internal Report UR-NSRL-41 (1971)
Bachner, D., Bock, R., Duhm, H.H., Santo, R., Stock, R., Hinds, S.: Nucl. Phys. A99, 487 (1967)
Hartas, A.: private communication
Gove, N.B.: Beta and gamma transition probabilities. In: Nuclear spin-parity assignments, ed. by N. Gove. New York-London: Academic Press 1966
Lawson, R.D., Uretsky, J.L.: Phys. Rev.108, 1300 (1957)
Bouten, M., Leuven, P. van: Nucl. Phys.32, 499 (1962); Nucl. Phys.76, 479 (1966)
Simons, L., Sundius, T.: Soc. Sci. Comm. Phys.-Math.34, 67 (1969)
Paar, V.: Nucl. Phys. A147, 369 (1970)
Paradellis, T., Hontzeas, S.: Can. J. Phys.49, 1750 (1971)
Gomez, J.M.G.: Nucl. Phys. A173, 537 (1971)
Castel, B., Johnstone, I.P., Singh, B.P., Stewart, K.W.C.: Can. J. Phys.50, 1630 (1972)
Thankappan, V.K., True, W.W.: Phys. Rev.137, B 793 (1965)
Larner, D.: Phys. Rev. C2, 522 (1970)
Beres, W.P.: Nucl. Phys.75, 255 (1966)
Wong, S.S.M.: Nucl. Phys. A159, 235 (1970)
Jager, J.L. de, Boeker, E.: Nucl. Phys. A186, 417 (1972)
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The authors wish to thank Prof. Dr. A.H. Wapstra, Prof. Dr. R. van Lieshout and Dr. J. Konijn for their stimulation of this work. The permission of Drs. J. de Jager to use his results prior to publication is greatly acknowledged. The chemical separations have been performed by Mr. J. Visser. This work is part of the research program of the Institute for Nuclear Physics Research (IKO), made possible by financial support from the Foundation for Fundamental Research on Matter (FOM) and the Netherlands Organization for the Advancement of Pure Research (ZWO).
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Klaasse, A.A.C., Goudsmit, P.F.A. The decay of63Zn. Z. Physik 266, 75–82 (1974). https://doi.org/10.1007/BF01668668
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DOI: https://doi.org/10.1007/BF01668668