Results:2 different decay possibilities were found

Dataset #1:

Authors: S. Lalkovski, J. Timar and Z. Elekes   Citation:Nuclear Data Sheets 161, 1 (2019)

Parent
Nucleus		Parent
E(level)		Parent
Parent
T1/2		Decay Mode GS-GS Q-value
(keV) 		Daughter
Nucleus		Decay
Scheme 		ENSDF
file 
105
45		Rh
  129.7824    1/2-   42.8 s 3    IT       
105
45		Rh
 

Electrons:

Energy
(keV)		Intensity
(%)		Dose
( MeV/Bq-s )
Auger L     2.39      70.3 % 6   0.001680 15 
Auger K    17.0       9.84 % 24   0.00167 4 
CE K   106.562 4       51.5 % 6   0.0549 6 
CE L   126.370 4       23.1 % 4   0.0292 5 
CE M   129.155 4        4.52 % 8   0.00584 10 
CE N   129.701 4        0.680 % 13   8.82E-4 17 

Gamma and X-ray radiation:

Energy
(keV)		Intensity
(%)		Dose
( MeV/Bq-s )
XR l     2.7       3.65 % 10   9.9E-5 3 
XR kα2    20.074      12.1 % 4   0.00243 8 
XR kα1    20.216      23.0 % 7   0.00464 15 
XR kβ3    22.699       1.91 % 6   4.34E-4 13 
XR kβ1    22.724       3.70 % 11   8.4E-4 3 
XR kβ2    23.172       0.89 % 3   2.05E-4 6 
   129.782 4       20.2 % 3   0.0263 4 

Dataset #2:

Authors: S. Lalkovski, J. Timar and Z. Elekes   Citation:Nuclear Data Sheets 161, 1 (2019)

Parent
Nucleus		Parent
E(level)		Parent
Parent
T1/2		Decay Mode GS-GS Q-value
(keV) 		Daughter
Nucleus		Decay
Scheme 		ENSDF
file 
105
45		Rh
  0.0    7/2+   35.341 h 19    β-: 100  566.7 24   
105
46		Pd
 

Beta-:

Energy
(keV)		End-point energy
(keV)		Intensity
(%)		Dose
( MeV/Bq-s )
    33.04 68    124.3 24      0.0355 % 8   1.17E-5 4 
    69.72 75    247.5 24     17.8 % 6   0.0124 4 
    73.79 76    260.4 24      4.75 % 10   0.00351 8 
    81.99 78  ?  286.2 24      0.005 % 5   4E-6 4 
   179.31 89    566.7 24     77.9 % 5   0.1397 11 

Mean beta- energy: 154.9 keV 17, total beta- intensity: 100.5 % 8, mean beta- dose: 0.1556 MeV/Bq-s 21

Electrons:

Energy
(keV)		Intensity
(%)		Dose
( MeV/Bq-s )
Auger L     2.5       0.81 % 15   2.0E-5 4 
CE K    14.42 7        0.27 % 16   3.9E-5 23 
Auger K    17.7       0.11 % 3   1.9E-5 5 
CE L    35.17 7        0.23 % 23   8E-5 8 
CE M    38.10 7        0.04 % 4   1.7E-5 16 
CE N    38.68 7        0.007 % 7   3E-6 3 
CE K   256.173 10        0.00317 % 8   8.11E-6 20 
CE L   276.919 10        3.81E-4 % 10   1.05E-6 3 
CE M   279.853 10        7.17E-5 % 18   2.01E-7 5 
CE N   280.437 10        1.21E-5 % 3   3.38E-8 9 
CE K   281.961 10        0.0765 % 19   2.16E-4 5 
CE K   294.881 10        0.250 % 6   7.38E-4 18 
CE L   302.707 10        0.00914 % 24   2.77E-5 7 
CE M   305.641 10        0.00172 % 5   5.25E-6 14 
CE N   306.225 10        2.89E-4 % 7   8.86E-7 22 
CE L   315.627 10        0.0299 % 7   9.44E-5 23 
CE M   318.561 10        0.00561 % 14   1.79E-5 5 
CE N   319.145 10        9.46E-4 % 24   3.02E-6 8 
CE K   418.067 10        2.34E-4 % 6   9.79E-7 25 
CE L   438.813 10        2.78E-5 % 7   1.22E-7 3 
CE M   441.747 10        5.22E-6 % 13   2.30E-8 6 
CE N   442.331 10        8.80E-7 % 23   3.89E-9 10 

Gamma and X-ray radiation:

Energy
(keV)		Intensity
(%)		Dose
( MeV/Bq-s )
XR l     2.84       0.046 % 15   1.3E-6 4 
XR kα2    21.02       0.14 % 4   3.0E-5 8 
XR kα1    21.177       0.27 % 7   5.8E-5 15 
XR kβ3    23.791       0.023 % 6   5.5E-6 15 
XR kβ1    23.819       0.044 % 12   1.1E-5 3 
XR kβ2    24.299       0.011 % 3   2.6E-6 7 
    38.77 7        0.0228 % 5   8.85E-6 21 
   280.523 10        0.153 % 3   4.29E-4 9 
   306.311 10        4.66 % 10   0.0143 3 
   319.231 10       16.9 % 3   0.0540 11 
   442.417 10        0.0355 % 7   1.57E-4 3 

Gamma Coincidence Data:

For each gamma, the list of gammas in coincidence is given.
If experimentally known, an estimate of the average time interval (in seconds) between both gammas is given.

E(γ)Coincidence
    38.77280.523
   280.52338.77