 1.6						! par(p, 1)=Ao
-7.767716236911215E-09  1.877902726831641E-05	! par(p, 1:2)=Ap, Bp
-6.647845211450606E-08  4.210494319878464E-05
-3.050213118867354E-07  9.517527790591698E-05
-1.116334849957581E-06  2.082921648884458E-04
-3.649898174132099E-06  4.404061672256434E-04
-1.111514318922603E-05  9.032808815773270E-04
-3.211525942120265E-05  1.804668907021581E-03
-8.887211362696329E-05  3.524425413631719E-03
-2.368130903906466E-04  6.747082738474959E-03
-6.095043447092914E-04  1.269014675352538E-02
-1.517103222110435E-03  2.349243654837764E-02
-3.647394982683306E-03  4.286424028022565E-02
-8.421794139120687E-03  7.714731703933778E-02
-1.839854339833334E-02  1.369476578097060E-01
-3.669151091235762E-02  2.393013248213580E-01
-6.133650931660836E-02  4.093450790033892E-01
-7.040359082020586E-02  6.786087765148219E-01
-3.681482162404745E-02  1.084889706568303E+00
-4.209418680805875E-03  1.724810132946310E+00
 2.093303132023171E+06  1.197289641088457E+10
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! comparison to Gramling experiment
! Jiang's coefficients of 02/01/17 (real parts only, Bp signs changed from - to +)
! t1 = 6.6, t2 = 1.E+05, beta = 1.6
! highest accuracy (Approximation 5: M- 20 poles)
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! M(t) (for each material m, from 1 to Nm)
par(p,1:2,m)	! M(t) parameters for p from 0 to Np
	! for ADE - they are not used
	! for EXP, par(p:1) are Ap and par(p:2) are Bp in Ap*exp(-Bp*t),
                   par(0:1) is Ao and par(0:2) is unused
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formers:
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