Lifetimes and Branching Ratios inTi48

Publisher Website

20 April 1969

journal article
research article
Published by American Physical Society (APS) in Physical Review B

Vol. 180 (4) , 971-978
https://doi.org/10.1103/physrev.180.971

Abstract

The Doppler-shift attenuation method has been used to study levels in

{Ti}^{48}

up to 3.74-MeV excitation energy. Backscattered protons from the (

p, p^{'} γ

) reaction were detected in coincidence with deexcitation

γ

rays. A 32-cc Ge(Li) detector was used to measure

γ

-ray Doppler shifts, and to obtain branching ratios. Eleven levels in

{Ti}^{48}

were observed below 3.74 MeV. Transition rates in single-particle units are given for twelve transitions. The

0^{+}

level at 3.000 MeV was observed to decay with a transition rate of (8±2)×

10^{12}

\sec^{- 1}

, indicating a collective admixture for this state and suggesting that it is formed by the mixing of rotational and shell-model states.

Keywords

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