Parametrizations of the microscopic calculations as in J.Lu, et al., PRC100, 054335 (2019)

 xtemp = Temp/100.
 F_N (rho,T) =   a *rho + b * rho** c + d 
  + atil * xtemp**2 * rho + btil * xtemp**2  * log(rho) + (ctil * xtemp**2 + dtil*xtemp** etil)/rho 

! Bonn B  two-body potential and microscopic three-body forces, SNM
-65.   498.	   2.67	-9.  -124.  203.   -105.     122.  2.2  ! a,	b, c,	d, atil, btil, ctil, dtil, etil
! Bonn B  two-body potential, PNM
57.    856. 	    2.91 	 4.   -85.	152.	    -32.	 43.	  2.47   ! a, b, c, d, atil, btil, ctil, dtil, etil


! V18, Argonne v_18 two-body potential and microscopic three-body forces, SNM
-60.   369.    2.66 	     -8.	     -147.     209.	   -66.	  85.	  2.32  ! a, b, c, d, atil, btil, ctil, dtil, etil
! V18, Argonne v_18 two-body potential and microscopic three-body forces, PNM
37.    667.    2.78 	   6.	       -91.	       154.	  -52.	  62.	  2.28  ! a, b, c, d, atil, btil, ctil, dtil, etil



! UIX, Argonne v_18 two-body potential and phenomenological Urbana IX
  three-body force, SNM
  -174.	     323.   1.61	-4.	-186.	199.		-136
  153.		2.16  ! a, b, c, d, atil, btil, ctil, dtil, etil
 ! UIX, Argonne v_18 two-body potential and phenomenological Urbana IX
  three-body force, PNM
24.	     326.   2.09	6.	-117.	153.	-85.	94.
  2.16   ! a, b, c, d, atil, btil, ctil, dtil, etil


! N93, Nijmegen 93 two-body potential and microscopic three-body
  forces, SNM
  -42.	  298.	2.61	-12.	-142.	211.	-64.	87.	2.35  ! a, b, c, d, atil, btil, ctil, dtil, etil
! N93, Nijmegen 93 two-body potential and microscopic three-body
  forces, PNM
  67.	  743.	2.71	4.	-95.	154.	-35.	46.	2.44
  ! a, b, c, d, atil, btil, ctil, dtil, etil