9  Fit all derivative

9.1 enlarging the error to have chi2dof=1

9.1.1 fpi

[1] “/home/garofalo/analysis/flow/data/fit_all_beta/der_fpi_diffplat_full_mu_mu2_mu3_chi2d1” \chi^2/dof= 1

B fpi(mc_sim)= 130.58(26)

B fpi(mc_iso)= 130.64(26)

B \delta\mu \partial_\mu f_{\pi}/f_{\pi}= 0.00044(15)

B fpi(mc_iso)*chidof= 130.64(26)

B \delta\mu \partial_\mu f_{\pi}/f_{\pi}*\chi_{dof}= 0.00044(15)

B fpi(mc_iso)*chi= 130.64(28)

B \delta\mu \partial_\mu f_{\pi}/f_{\pi}*\chi= 0.00044(43)

B \mu_\ell \partial_\mu f_{\pi}(\mu_\ell^{sim})= 1.23(23)

B \mu_\ell \partial_\mu f_{\pi}(\mu_s^{sim})= 0.175(42)

B \mu_\ell \partial_\mu f_{\pi}(\mu_c^{sim})= 0.0140(36)

C fpi(mc_sim)= 130.42(30)

C fpi(mc_iso)= 130.51(30)

C \delta\mu \partial_\mu f_{\pi}/f_{\pi}= 0.00070(22)

C fpi(mc_iso)*chidof= 130.51(30)

C \delta\mu \partial_\mu f_{\pi}/f_{\pi}*\chi_{dof}= 0.00070(22)

C fpi(mc_iso)*chi= 130.51(31)

C \delta\mu \partial_\mu f_{\pi}/f_{\pi}*\chi= 0.00070(66)

C \mu_\ell \partial_\mu f_{\pi}(\mu_\ell^{sim})= 1.08(20)

C \mu_\ell \partial_\mu f_{\pi}(\mu_s^{sim})= 0.165(39)

C \mu_\ell \partial_\mu f_{\pi}(\mu_c^{sim})= 0.0144(37)

D fpi(mc_sim)= 130.53(26)

D fpi(mc_iso)= 130.64(26)

D \delta\mu \partial_\mu f_{\pi}/f_{\pi}= 0.00084(23)

D fpi(mc_iso)*chidof= 130.64(26)

D \delta\mu \partial_\mu f_{\pi}/f_{\pi}*\chi_{dof}= 0.00084(23)

D fpi(mc_iso)*chi= 130.64(27)

D \delta\mu \partial_\mu f_{\pi}/f_{\pi}*\chi= 0.00084(78)

D \mu_\ell \partial_\mu f_{\pi}(\mu_\ell^{sim})= 1.26(27)

D \mu_\ell \partial_\mu f_{\pi}(\mu_s^{sim})= 0.172(41)

D \mu_\ell \partial_\mu f_{\pi}(\mu_c^{sim})= 0.0147(38)

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9.1.2 Mpi

[1] “/home/garofalo/analysis/flow/data/fit_all_beta/der_Mpi_diffplat_full_mu_mu2_mu3_chi2d1” \chi^2/dof= 1

B Mpi(mc_sim)= 130.58(26)

B Mpi(mc_iso)= 130.59(26)

B \delta\mu \partial_\mu M_{\pi}/f_{\pi}= 5.2(7.4)e-5

B Mpi(mc_iso)*chidof= 130.59(26)

B \delta\mu \partial_\mu M_{\pi}/M_{\pi}*\chi_{dof}= 5.2(7.4)e-5

B Mpi(mc_iso)*chi= 130.59(26)

B \delta\mu \partial_\mu M_{\pi}/M_{\pi}*\chi= 5(27)e-5

B \mu_\ell \partial_\mu M_{\pi}(\mu_\ell^{sim})= -0.14(12)

B \mu_\ell \partial_\mu M_{\pi}(\mu_s^{sim})= 0.016(27)

B \mu_\ell \partial_\mu M_{\pi}(\mu_c^{sim})= 0.0017(24)

C Mpi(mc_sim)= 130.42(30)

C Mpi(mc_iso)= 130.43(30)

C \delta\mu \partial_\mu M_{\pi}/f_{\pi}= 8(12)e-5

C Mpi(mc_iso)*chidof= 130.43(30)

C \delta\mu \partial_\mu M_{\pi}/M_{\pi}*\chi_{dof}= 8(12)e-5

C Mpi(mc_iso)*chi= 130.43(30)

C \delta\mu \partial_\mu M_{\pi}/M_{\pi}*\chi= 8(43)e-5

C \mu_\ell \partial_\mu M_{\pi}(\mu_\ell^{sim})= -0.01(13)

C \mu_\ell \partial_\mu M_{\pi}(\mu_s^{sim})= 0.016(26)

C \mu_\ell \partial_\mu M_{\pi}(\mu_c^{sim})= 0.0017(24)

D Mpi(mc_sim)= 130.53(26)

D Mpi(mc_iso)= 130.55(26)

D \delta\mu \partial_\mu M_{\pi}/f_{\pi}= 0.00010(14)

D Mpi(mc_iso)*chidof= 130.55(26)

D \delta\mu \partial_\mu M_{\pi}/M_{\pi}*\chi_{dof}= 0.00010(14)

D Mpi(mc_iso)*chi= 130.55(27)

D \delta\mu \partial_\mu M_{\pi}/M_{\pi}*\chi= 0.00010(52)

D \mu_\ell \partial_\mu M_{\pi}(\mu_\ell^{sim})= -0.16(14)

D \mu_\ell \partial_\mu M_{\pi}(\mu_s^{sim})= 0.016(27)

D \mu_\ell \partial_\mu M_{\pi}(\mu_c^{sim})= 0.0017(25)

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