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functions in fermii.i - f
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fdi12
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fdi12(x, b)
return incomplete Fermi-Dirac integral of order 1/2,
fdi12(x, b) = integral[b to inf]{ dt * t^0.5 / (exp(t-x)+1) }
default accuracy to about 1e-10
interpreted function, defined at i/fermii.i line 44
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SEE ALSO:
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fdim12,
fdi32,
fdi52
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fdi32
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fdi32(x, b)
return incomplete Fermi-Dirac integral of order 1/2,
fdi32(x, b) = integral[b to inf]{ dt * t^1.5 / (exp(t-x)+1) }
default accuracy to about 1e-10
interpreted function, defined at i/fermii.i line 70
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SEE ALSO:
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fdim12,
fdi12,
fdi52
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fdi52
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fdi52(x, b)
return incomplete Fermi-Dirac integral of order 1/2,
fdi32(x, b) = integral[b to inf]{ dt * t^2.5 / (exp(t-x)+1) }
default accuracy to about 1e-10
interpreted function, defined at i/fermii.i line 96
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SEE ALSO:
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fdim12,
fdi12,
fdi32
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fdim12
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fdim12(x, b)
return incomplete Fermi-Dirac integral of order -1/2,
fdim12(x, b) = integral[b to inf]{ dt * t^-0.5 / (exp(t-x)+1) }
default accuracy to about 1e-10
interpreted function, defined at i/fermii.i line 18
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SEE ALSO:
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fdi12,
fdi32,
fdi52
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fermii
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#include "fermii.i"
Incomplete Fermi-Dirac integrals of orders -1/2, 1/2, 3/2, 5/2
after M. Goano, Algorithm 745, ACM TOMS 21, #3, pp 221-232 (Sept. 95)
keyword, defined at i/fermii.i line 6
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SEE ALSO:
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fdim12,
fdi12,
fdi32,
fdi52
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