Cosmetic changes in README

README.md

 # WeakLib Tables
 
-- The provenance of these tables are as follows:\
-( Origin/Type of Table ) - ( Table Identifier ) - ( Resolution of Table in rho-T-Ye ) - (Opacity Type If Applied)
+- The provenance of these tables are as follows:
+ 
+      ( Origin/Type of Table ) - ( Table Identifier ) - ( Resolution of Table in rho-T-Ye ) - (Opacity Type If Applied)
 
 - Origin/Type:
-  - wl-EOS : This is a Weaklib generated EOS Table.
-  - wl-Op  : This is a Weaklib generated Opacity Table.
 
-- Table Identifier:\
-example: LS220, SFHo, SFHx
+      wl-EOS : This is a Weaklib generated EOS Table.
+      wl-Op  : This is a Weaklib generated Opacity Table.
 
-- Resolution of Table:\
-example: 25-40-100 is 20 pts/decade in density, 40 pts/decade in temperature, and 100 pts/1.00 in electron fraction
+- Table Identifier:
+
+      LS220, SFHo, SFHx
+
+- Resolution of Table:
+
+      example: 25-40-100 is 20 pts/decade in density, 40 pts/decade in temperature, and 100 pts/1.00 in electron fraction
 
 
 - Opacity Type:
+
   - AbEm : neutrino absorptivity 1/λ(e) and emissivity j(e) on nucleons and nuclei.
   
            Tabulated(e,rho,T,ye) = 1/λ(e,rho,T,ye) + j(e,rho,T,ye)
@@ -28,17 +33,17 @@ example: 25-40-100 is 20 pts/decade in density, 40 pts/decade in temperature, an
 
   - NES : neutrino-electron scattering.
   
-           Tabulated(e,ep,1,T,eta) = h0i 
-           Tabulated(e,ep,2,T,eta) = h0ii
-           Tabulated(e,ep,3,T,eta) = h1i
-           Tabulated(e,ep,4,T,eta) = h1ii
+           Tabulated(ep,e,1,T,eta) = H0i  * 2π/(cvel*(hc)**3) = zero moment of the "i" NES outgoing scattering kernal
+           Tabulated(ep,e,2,T,eta) = H0ii * 2π/(cvel*(hc)**3) = zero moment of the "ii" NES outgoing scattering kernal
+           Tabulated(ep,e,3,T,eta) = H1i  * 2π/(cvel*(hc)**3) = first moment of the "i" NES outgoing scattering kernal
+           Tabulated(ep,e,4,T,eta) = H1ii * 2π/(cvel*(hc)**3) = first moment of the "ii" NES outgoing scattering kernal
            
   - Pair : neutrino production from pair process.
   
-           Tabulated(e,ep,1,T,eta) = j0i
-           Tabulated(e,ep,2,T,eta) = j0ii
-           Tabulated(e,ep,3,T,eta) = j1i
-           Tabulated(e,ep,4,T,eta) = j1ii
+           Tabulated(ep,e,1,T,eta) = J0i  * 2π/(cvel*(hc)**3) = zero moment of the "i" pair annihilation kernal
+           Tabulated(ep,e,2,T,eta) = J0ii * 2π/(cvel*(hc)**3) = zero moment of the "ii" pair annihilation kernal
+           Tabulated(ep,e,3,T,eta) = J1i  * 2π/(cvel*(hc)**3) = first moment of the "i" pair annihilation kernal
+           Tabulated(ep,e,4,T,eta) = J1ii * 2π/(cvel*(hc)**3) = first moment of the "ii" pair annihilation kernal
 
 - Ref: <a href="https://ui.adsabs.harvard.edu/abs/1985ApJS...58..771B/abstract"> Bruenn(1985), 10.1086/191056</a>
 
@@ -92,3 +97,7 @@ HighRes:
      3.0G |  wl-Op-SFHx-25-40-100-E40-B85-Iso.h5 ( missing )
      378M |  wl-Op-SFHx-25-40-100-E40-B85-NES.h5
      378M |  wl-Op-SFHx-25-40-100-E40-B85-Pair.h5
+
+
+# Ask For Help
+R. Chu : rchu@vols.utk.edu