E2/M1 mixing ratios in transitions from the gamma vibrational bands to the ground state rotational bands of 102, 104, 106, 108Mo, 108, 110, 112Ru, and 112, 114, 116Pd

E2/M1 mixing ratios have been measured for transitions from states in the \(\gamma\) vibrational bands (\( I^{+}_{\gamma}\)) to states in the ground state bands (\(I^{+}\) or \( [I-1]^{+}\)) of the neutron rich, even-even, deformed isotopes, 102, 104, 106, 108Mo, 108, 110, 112Ru, and 112, 114, 116Pd, including from states as high as \( 9^{+}_{\gamma}\). These measurements were done using the GAMMASPHERE detector array, which, at the time of the experiment, had 101 working HPGe detectors, arranged at 64 different angles. A 62 \(\mu\)Ci source of 252Cf was placed inside GAMMASPHERE yielding \(5.7\times 10^{11}\) \(\gamma\)-\(\gamma\)-\(\gamma\) and higher coincidence events. The angular correlations between the transitions from the \(\gamma\)-bands to the ground bands, and the pure E2 transitions within the ground band were then measured. These angular correlations yielded the mixing ratios, demonstrating that these transitions are pure or nearly pure E2, in agreement with theory. In order to correct for possible attenuation due to the lifetime of the intermediate state in these correlations, the g-factors of the intermediate states needed to be known. Therefore, the g-factors of the 2+ states in the ground state band have been measured.