Abstract
A set of measurements consisting of \ensuremath{\gamma}-ray excitation functions and angular distributions has been performed using the ${(n,n}^{\ensuremath{'}}\ensuremath{\gamma})$ reaction on ${}^{110}\mathrm{Cd}.$ Gamma-ray excitation functions allowed us to clarify the level scheme by placing ten new transitions and to establish one new level. From $\ensuremath{\gamma}$-ray angular distributions, the lifetimes for 16 excited states were extracted using the Doppler-shift attenuation method. The experimental $B(E2),$ $B(M1),$ and $B(E1)$ values of transitions from intruder, octupole, and three-phonon states are compared to different theoretical models.
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