Loading [MathJax]/jax/output/SVG/jax.js

6  Fit derivative B64

[1] “/home/garofalo/analysis/flow/data/fit_all_B64_LMA/der_fpi_vs_mu” χ2/dof= 1.87265

P value
P[0] 0.00190(45)

fpi(mc_sim)= 0.052595(60)

fpi(mc_iso)= 0.052618(60)

(dfpi/dmu)(mc_iso-mc_sim)/fpi= 0.00043(14)

[1] “/home/garofalo/analysis/flow/data/fit_all_B64_LMA/der_fpi_vs_mu_mu2” χ2/dof= 2.44513

P value
P[0] 0.0024(13)
P[1] -4(10)e-6

fpi(mc_sim)= 0.052595(60)

fpi(mc_iso)= 0.052623(63)

(dfpi/dmu)(mc_iso-mc_sim)/fpi= 0.00053(29)

[1] “/home/garofalo/analysis/flow/data/fit_all_B64_LMA/der_fpi_vs_mu_mu2_mu3” χ2/dof= 2.57821

P value
P[0] 0.0074(36)
P[1] -0.00015(10)
P[2] 1.03(70)e-6

fpi(mc_sim)= 0.052595(60)

fpi(mc_iso)= 0.052675(74)

(dfpi/dmu)(mc_iso-mc_sim)/fpi= 0.00152(83)

[1] “/home/garofalo/analysis/flow/data/fit_all_B64_LMA/der_fpi_0123_vs_mu_mu2” χ2/dof= 2.44513

P value
P[0] 0.0024(13)
P[1] -4(10)e-6

fpi(mc_sim)= 0.052595(60)

fpi(mc_iso)= 0.052623(63)

(dfpi/dmu)(mc_iso-mc_sim)/fpi= 0.00053(29)

[1] “/home/garofalo/analysis/flow/data/fit_all_B64_LMA/der_fpi_012_vs_mu_mu2” χ2/dof= 2.44513

P value
P[0] 0.0024(13)
P[1] -4(10)e-6

fpi(mc_sim)= 0.052595(60)

fpi(mc_iso)= 0.052623(63)

(dfpi/dmu)(mc_iso-mc_sim)/fpi= 0.00053(29)

00.10.20.30.4−0.5−0.4−0.3−0.2−0.100.10.20.30.4
P[0]/amu0P[0]/amu+P[1]/amu^2P[0]/amu+P[1]/amu^2+P[2]/amu^3(removing last point)P[0]/amu+P[1]/amu^2(removing last 2 points)P[0]/amu+P[1]/amu^2$a\mu$$df_\pi/d\mu$

<r >

[1] “/home/garofalo/analysis/flow/data//fit_all_B64_LMA/der_Mpi_vs_mu” χ2/dof= 1.90055

P value
P[0] 0.00013(27)

Mpi(mc_sim)= 0.052595(60)

Mpi(mc_iso)= 0.052597(60)

(dMpi/dmu)(mc_iso-mc_sim)/Mpi= 3.0(6.1)e-5

[1] “/home/garofalo/analysis/flow/data//fit_all_B64_LMA/der_Mpi_vs_mu2” χ2/dof= 1.89722

P value
P[0] 1.1(2.1)e-6

Mpi(mc_sim)= 0.052595(60)

Mpi(mc_iso)= 0.052595(60)

(dMpi/dmu)(mc_iso-mc_sim)/Mpi= 1.0(2.1)e-6

[1] “/home/garofalo/analysis/flow/data//fit_all_B64_LMA/der_Mpi_vs_mu_mu2” χ2/dof= 2.52863

P value
P[0] 4(76)e-5
P[1] 8(60)e-7

Mpi(mc_sim)= 0.052595(60)

Mpi(mc_iso)= 0.052596(60)

(dMpi/dmu)(mc_iso-mc_sim)/Mpi= 1(17)e-5

00.050.10.150.20.250.30.350.4−0.8−0.6−0.4−0.200.20.4
P[0]/amu0P[0]/amu^2P[0]/amu+P[1]/amu^2$a\mu$$dM_\pi/d\mu$