A recoil-beta-tagging experiment has been performed to study the excited $$T=0$$
T
=
0
and $$T=1$$
T
=
1
states in the odd–odd $$N=Z$$
N
=
Z
nucleus $$^{94}$$
94
Ag, populated via the $$^{40}$$
40
Ca($$^{58}$$
58
Ni,1p3n)$$^{94}$$
94
Ag reaction. The experiment was conducted using the MARA recoil separator and JUROGAM3 array at the Accelerator Laboratory of the University of Jyväskylä. Through correlating fast, high-energy beta decays at the MARA focal plane with prompt $$\gamma $$
γ
rays emitted at the reaction target, a number of transitions between excited states in $$^{94}$$
94
Ag have been identified. The timing characteristics of these transitions confirm that they fall within decay sequences that feed the short-lived $$T=1$$
T
=
1
ground state of $$^{94}$$
94
Ag. The transitions are proposed to proceed within and between the sets of states with $$T=0$$
T
=
0
and $$T=1$$
T
=
1
. Possible correspondence between some of these transitions from analog states in $$^{94}$$
94
Pd has been discussed, and shell-model calculations including multipole and monopole electromagnetic effects have been presented, in order to enable predictions of the decay patterns between the $$T=0$$
T
=
0
and $$T=1$$
T
=
1
states and to allow a theoretical set of Coulomb energy differences to be calculated for the $$A = 94$$
A
=
94
$$T=1$$
T
=
1
analog states.
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