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float | lalapps_string_cs_gamma.LAMBDA_Z_EQ = 5440.0 |
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float | lalapps_string_cs_gamma.LAMBDA_H_0 = 2.27e-18 |
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float | lalapps_string_cs_gamma.LAMBDA_OMEGA_M = 0.279 |
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float | lalapps_string_cs_gamma.LAMBDA_OMEGA_R = 8.5e-5 |
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float | lalapps_string_cs_gamma.LOOPS_RAD_POWER = 50.0 |
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float | lalapps_string_cs_gamma.CUSPS_PER_LOOP = 1.0 |
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float | lalapps_string_cs_gamma.P = 1.0 |
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| lalapps_string_cs_gamma.ops |
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| lalapps_string_cs_gamma.files |
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| lalapps_string_cs_gamma.amp |
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| lalapps_string_cs_gamma.eff |
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| lalapps_string_cs_gamma.Deff |
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| lalapps_string_cs_gamma.efficiency_file |
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| lalapps_string_cs_gamma.dtype |
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| lalapps_string_cs_gamma.unpack |
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| lalapps_string_cs_gamma.outfile = open("gamma.dat", 'w') |
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| lalapps_string_cs_gamma.epsilon = math.exp(math.log(ops.epsilonstart) + i * (math.log(ops.epsilonend) - math.log(ops.epsilonstart)) / (ops.nepsilon - 1)) |
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| lalapps_string_cs_gamma.Gmu = math.exp(math.log(ops.Gmustart) + j * (math.log(ops.Gmuend) - math.log(ops.Gmustart)) / (ops.nGmu - 1)) |
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| lalapps_string_cs_gamma.end |
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| lalapps_string_cs_gamma.file |
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| lalapps_string_cs_gamma.alpha = epsilon * (LOOPS_RAD_POWER * Gmu)**ops.index |
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| lalapps_string_cs_gamma.zofA = cs_gamma.findzofA(Gmu, alpha, amp) |
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| lalapps_string_cs_gamma.dRdz = cs_gamma.finddRdz(Gmu, alpha, ops.frequency, LOOPS_RAD_POWER, zofA) |
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| lalapps_string_cs_gamma.Dlnz = numpy.log(zofA[1:]) - numpy.log(zofA[:-1]) |
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float | lalapps_string_cs_gamma.gammaAverage = scipy.integrate.simps(eff[:-1] * zofA[:-1] * dRdz[:-1] * -Dlnz) * CUSPS_PER_LOOP / P |
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float | lalapps_string_cs_gamma.gammaMin = scipy.integrate.simps(numpy.clip(eff[:-1] - Deff[:-1], 0.0, 1.0) * zofA[:-1] * dRdz[:-1] * -Dlnz) * CUSPS_PER_LOOP / P |
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float | lalapps_string_cs_gamma.gammaMax = scipy.integrate.simps(numpy.clip(eff[:-1] + Deff[:-1], 0.0, 1.0) * zofA[:-1] * dRdz[:-1] * -Dlnz) * CUSPS_PER_LOOP / P |
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