Nuclear magnetic resonance on orientedRh105in Fe and Ni

“…First, we want to point out, however, that the situation in the neighbouring rhodium is quite similar: In the odd Rh isotopes a 7/2 + state is known to appear at rather low excitation energies which has been interpreted as seniority 3 state arising from the rcg9/2 shell. This state, the excitation energy of which decreases from 201 keV in 99Rh to 40keV in l~ is the ground state of l~ Measurements of magnetic moments of such 7/2 + states in this mass region have shown that g(7/2 +) fits well into the systematics of rcg9/2 states [25]. This Supports the assignment of a (~cg9/2)3/2 + configuration to these states for which g(7/2 +) =g(Tzg9/z) is expected.…”

Nuclear orientation study of97, 103, 105Ru in Fe

“…First, we want to point out, however, that the situation in the neighbouring rhodium is quite similar: In the odd Rh isotopes a 7/2 + state is known to appear at rather low excitation energies which has been interpreted as seniority 3 state arising from the rcg9/2 shell. This state, the excitation energy of which decreases from 201 keV in 99Rh to 40keV in l~ is the ground state of l~ Measurements of magnetic moments of such 7/2 + states in this mass region have shown that g(7/2 +) fits well into the systematics of rcg9/2 states [25]. This Supports the assignment of a (~cg9/2)3/2 + configuration to these states for which g(7/2 +) =g(Tzg9/z) is expected.…”

Nuclear orientation study of97, 103, 105Ru in Fe

Ru, Rh, Pd, Os, Ir, and Pt Isotopes

Recent developments in radiative detection of nuclear magnetic resonance