42-Mo-95

MT Reaction 0.0253-eV Maxwellian
Average
g-factor Resonance
Integral
14-MeV Fiss. Spec.
Average
1 (n,total) 20.10 (b) 20.94 (b) 1.042 4.114 (b) 5.925 (b)
2 (n,elastic) 6.498 (b) 7.334 (b) 1.129 2.293 (b) 4.399 (b)
4 (n,inelastic) ( E-thr = 206.3 keV ) 546.7 (mb) 1.480 (b)
16 (n,2n) ( E-thr = 7.447 MeV ) 1.208 (b) 2.370 (mb)
17 (n,3n) ( E-thr = 17.23 MeV ) 54.60 (nb)
22 (n,na) ( E-thr = 2.266 MeV ) 2.413 (mb) 581.9 (nb)
28 (n,np) ( E-thr = 8.724 MeV ) 2.446 (mb) 623.7 (nb)
32 (n,nd) ( E-thr = 13.78 MeV ) 0.000 (b) 301.4e-12 (b)
102 (n,γ) 13.60 (b) 13.61 (b) 1.000 101.8 (b) 1.719 (mb) 42.26 (mb)
103 (n,p) ( E-thr = 144.8 keV ) 41.23 (mb) 175.6 (μb)
104 (n,d) ( E-thr = 6.475 MeV ) 3.768 (mb) 788.3 (nb)
105 (n,t) ( E-thr = 7.456 MeV ) 156.0 (μb) 36.05 (nb)
106 (n,He-3) ( E-thr = 7.530 MeV ) 93.84e-12 (b) 26.63e-12 (b)
107 (n,a) 30.74 (μb) 30.73 (μb) 1.000 4.597 (mb) 17.69 (mb) 444.4 (μb)

These cross sections are calculated from JENDL-4.0 at 300K.
The background color of each cell noted a cross section means the order of the cross-section value.
The unit of cross section, (b), means barns, and SI prefixes are used as following.
(kb) → 103(b),   (mb) → 10−3(b),  (μb) → 10−6(b),  (nb) → 10−9(b).

MT is a number that defines a reaction type. For the relation between MT and reaction type, please see here or refer to the manual of ENDF formats.

Maxwellian Average :
σmacs(T) =
2
 
 
π
EU
 
EL
σ(E,T) ⋅ E ⋅ exp (
E
  
kBT
) dE
 
EU
 
EL
E ⋅ exp (
E
  
kBT
) dE
,
where T denotes the temperature, and kB the Boltzmann constant. The upper and lower limits of integration, EL and EU are set to 10−5 eV and 10 eV, respectively.
Resonance Integral :
σri(T) =
EU
 
EL
σ(E,T) ⋅
1
 
E
dE ,
with  EL = 0.5 eV  and  EU = 10 MeV.
U-235 Thermal Fission-Neutron Spectrum Average (Fiss. Spec. Average) :
σfacs(T) =
EU
 
EL
σ(E,T) ⋅
 
4
 
πa3b
⋅ exp (
ab E
     
4 a
) ⋅ sinh
 
bE
dE
 
EU
 
EL
 
4
 
πa3b
⋅ exp (
ab E
     
4 a
) ⋅ sinh
 
bE
dE
,
with  EL = 10−5 eV  and  EU = 20 MeV. The parameters a and b are 0.988 MeV and 2.249 MeV−1, respectively.
Westcott g-factor :
g(T) =
σmacs(T)
 
σ(0.0253 eV,T)
 .