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Report No.

Spectroscopy of $$^{88}$$Y by the ($$p,dgamma$$) reaction

Ross, T. J.*; Beausang, C. W.*; Hughes, R. O.*; Scielzo, N. D.*; Burke, J. T.*; Allmond, J. M.*; Angell, C.; Basunia, M. S.*; Bleuel, D. L.*; Casperson, R. J.*; Escher, J. E.*; Fallon, P.*; Hatarik, R.*; Munson, J.*; Paschalis, S.*; Petri, M.*; Phair, L.*; Ressler, J. J.*

Low-spin, high-excitation energy states in $$^{88}$$Y have been studied using the $$^{89}$$Y($$p,dgamma$$) reaction. For this experiment a 25 MeV proton beam was incident upon a mono-isotopic $$^{89}$$Y target. A silicon telescope array was used to detect deuterons and coincident $$gamma$$ rays were detected using a germanium clover array. Most of the known low-excitation energy low-spin states populated strongly via the ($$p,d$$) reaction mechanism are confirmed. Two states are seen for the first time and seven new transitions, including one which by-passes the two low-lying isomeric states, are observed.



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Category:Physics, Nuclear



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