functions in fermi.i - f
fd12
fd12(x)
return Fermi-Dirac integral of order 1/2,
fd12(x) = integral[0 to inf]{ dt * t^0.5 / (exp(t-x)+1) }
accurate to about 1e-12
Interpreted function, defined at i/fermi.i line 56
SEE ALSO:
fdm12,
fd32,
fd52,
ifdm12,
ifd12,
ifd32,
ifd52
fd32
fd32(x)
return Fermi-Dirac integral of order 3/2,
fd32(x) = integral[0 to inf]{ dt * t^1.5 / (exp(t-x)+1) }
accurate to about 1e-12
Interpreted function, defined at i/fermi.i line 96
SEE ALSO:
fdm12,
fd12,
fd52,
ifdm12,
ifd12,
ifd32,
ifd52
fd52
fd52(x)
return Fermi-Dirac integral of order 5/2,
fd52(x) = integral[0 to inf]{ dt * t^2.5 / (exp(t-x)+1) }
accurate to about 1e-12
Interpreted function, defined at i/fermi.i line 135
SEE ALSO:
fdm12,
fd12,
fd32,
ifdm12,
ifd12,
ifd32,
ifd52
fdm12
fdm12(x)
return Fermi-Dirac integral of order -1/2,
fdm12(x) = integral[0 to inf]{ dt * t^-0.5 / (exp(t-x)+1) }
accurate to about 1e-12
Interpreted function, defined at i/fermi.i line 15
SEE ALSO:
fd12,
fd32,
fd52,
ifdm12,
ifd12,
ifd32,
ifd52
fermi
#include "fermi.i"
Fermi-Dirac integrals and inverses of orders -1/2, 1/2, 3/2, 5/2
Antia, H. M., Aph.J. 84, p.101-108 (1993)
Keyword, defined at i/fermi.i line 6
SEE ALSO:
fdm12,
fd12,
fd32,
fd52,
ifdm12,
ifd12,
ifd32,
ifd52
