From 9d827f6fa549686b7e9fc48c05aa7b8a000c0038 Mon Sep 17 00:00:00 2001 From: Emily Boudreaux Date: Mon, 24 Mar 2025 10:40:40 -0400 Subject: [PATCH] refactor(assets): removed redundant assets --- assets/const/const.dat | 469 --------------------------------------- assets/const/format.sh | 10 - assets/const/meson.build | 17 -- assets/mesh/sphere.msh | Bin 34259 -> 0 bytes 4 files changed, 496 deletions(-) delete mode 100644 assets/const/const.dat delete mode 100755 assets/const/format.sh delete mode 100644 assets/const/meson.build delete mode 100644 assets/mesh/sphere.msh diff --git a/assets/const/const.dat b/assets/const/const.dat deleted file mode 100644 index 2d51028..0000000 --- a/assets/const/const.dat +++ /dev/null @@ -1,469 +0,0 @@ -CODATA 2022 + astrophysical constants -Most quantities have been converted to CGS -Generated on Feb 10, 2025 -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- -Reference: - -Mohr, P. , Tiesinga, E. , Newell, D. and Taylor, B. (2024), Codata Internationally Recommended 2022 Values of the Fundamental Physical Constants, -Codata Internationally Recommended 2022 Values of the Fundamental Physical Constants, -[online], https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=958002, https://physics.nist.gov/constants (Accessed February 10, 2025) -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- -Symbol Name Value Unit Uncertainty Source -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- -wienK Wien displacement law constant 2.89776850e-01 K cm 5.10000000e-07 CODATA2022 -au1Hyper atomic unit of 1st hyperpolarizablity 3.20636151e-53 C^3 m^3 J^-2 2.80000000e-60 CODATA2022 -au2Hyper atomic unit of 2nd hyperpolarizablity 6.23538080e-65 C^4 m^4 J^-3 1.10000000e-71 CODATA2022 -auEDip atomic unit of electric dipole moment 8.47835309e-30 C m 7.30000000e-37 CODATA2022 -auEPol atomic unit of electric polarizablity 1.64877727e-41 C^2 m^2 J^-1 1.60000000e-49 CODATA2022 -auEQuad atomic unit of electric quadrupole moment 4.48655124e-40 C m^2 3.90000000e-47 CODATA2022 -auMDip atomic unit of magn. dipole moment 1.85480190e-23 J T^-1 1.60000000e-30 CODATA2022 -auMFlux atomic unit of magn. flux density 2.35051757e+09 G 7.10000000e-01 CODATA2022 -muD deuteron magn. moment 4.33073482e-27 J T^-1 3.80000000e-34 CODATA2022 -muD_Bhor deuteron magn. moment to Bohr magneton ratio 4.66975457e-04 5.00000000e-12 CODATA2022 -muD_Nuc deuteron magn. moment to nuclear magneton ratio 8.57438233e-01 9.20000000e-09 CODATA2022 -muD_e deuteron-electron magn. moment ratio -4.66434555e-04 5.00000000e-12 CODATA2022 -muD_p deuteron-proton magn. moment ratio 3.07012208e-01 4.50000000e-09 CODATA2022 -muD_n deuteron-neutron magn. moment ratio -4.48206520e-01 1.10000000e-07 CODATA2022 -rgE electron gyromagn. ratio 1.76085963e+11 s^-1 T^-1 5.30000000e+01 CODATA2022 -rgE_2pi electron gyromagn. ratio over 2 pi 2.80249532e+04 MHz T^-1 2.40000000e-03 CODATA2022 -muE electron magn. moment -9.28476412e-24 J T^-1 8.00000000e-31 CODATA2022 -muE_Bhor electron magn. moment to Bohr magneton ratio -1.00115965e+00 3.80000000e-12 CODATA2022 -muE_Nuc electron magn. moment to nuclear magneton ratio -1.83828197e+03 8.50000000e-07 CODATA2022 -muE_anom electron magn. moment anomaly 1.15965219e-03 3.80000000e-12 CODATA2022 -muE_muP_shield electron to shielded proton magn. moment ratio -6.58227596e+02 7.10000000e-06 CODATA2022 -muE_muH_shield electron to shielded helion magn. moment ratio 8.64058255e+02 1.00000000e-05 CODATA2022 -muE_D electron-deuteron magn. moment ratio -2.14392349e+03 2.30000000e-05 CODATA2022 -muE_mu electron-muon magn. moment ratio 2.06766989e+02 5.40000000e-06 CODATA2022 -muE_n electron-neutron magn. moment ratio 9.60920500e+02 2.30000000e-04 CODATA2022 -muE_p electron-proton magn. moment ratio -6.58210686e+02 6.60000000e-06 CODATA2022 -mu0 magn. constant 1.25663706e-06 N A^-2 0.00000000e+00 CODATA2022 -phi0 magn. flux quantum 2.06783385e-15 Wb 0.00000000e+00 CODATA2022 -muMu muon magn. moment -4.49044799e-26 J T^-1 4.00000000e-33 CODATA2022 -muMu_Bhor muon magn. moment to Bohr magneton ratio -4.84197045e-03 1.30000000e-10 CODATA2022 -muMu_Nuc muon magn. moment to nuclear magneton ratio -8.89059698e+00 2.30000000e-07 CODATA2022 -muMu_p muon-proton magn. moment ratio -3.18334512e+00 8.90000000e-08 CODATA2022 -rgN neutron gyromagn. ratio 1.83247171e+08 s^-1 T^-1 4.30000000e+01 CODATA2022 -rgN_2pi neutron gyromagn. ratio over 2 pi 2.91646950e+01 MHz T^-1 7.30000000e-06 CODATA2022 -muN neutron magn. moment -9.66236450e-27 J T^-1 2.40000000e-33 CODATA2022 -muN_Bhor neutron magn. moment to Bohr magneton ratio -1.04187563e-03 2.50000000e-10 CODATA2022 -muN_Nuc neutron magn. moment to nuclear magneton ratio -1.91304273e+00 4.50000000e-07 CODATA2022 -muN_p_shield neutron to shielded proton magn. moment ratio -6.84996940e-01 1.60000000e-07 CODATA2022 -muN_e neutron-electron magn. moment ratio 1.04066882e-03 2.50000000e-10 CODATA2022 -muN_p neutron-proton magn. moment ratio -6.84979340e-01 1.60000000e-07 CODATA2022 -rgP proton gyromagn. ratio 2.67522187e+08 s^-1 T^-1 1.10000000e-01 CODATA2022 -rgP_2pi proton gyromagn. ratio over 2 pi 4.25774813e+01 MHz T^-1 3.70000000e-06 CODATA2022 -muP proton magn. moment 1.41060671e-26 J T^-1 1.20000000e-33 CODATA2022 -muP_Bhor proton magn. moment to Bohr magneton ratio 1.52103221e-03 1.50000000e-11 CODATA2022 -muP_Nuc proton magn. moment to nuclear magneton ratio 2.79284735e+00 2.80000000e-08 CODATA2022 -muP_shield proton magn. shielding correction 2.56890000e-05 1.10000000e-08 CODATA2022 -muP_n proton-neutron magn. moment ratio -1.45989805e+00 3.40000000e-07 CODATA2022 -rgH shielded helion gyromagn. ratio 2.03789457e+08 s^-1 T^-1 2.40000000e+00 CODATA2022 -rgH_2pi shielded helion gyromagn. ratio over 2 pi 3.24341015e+01 MHz T^-1 2.80000000e-06 CODATA2022 -muH_shield shielded helion magn. moment -1.07455302e-26 J T^-1 9.30000000e-34 CODATA2022 -muH_shield_Bhor shielded helion magn. moment to Bohr magneton rati -1.15867147e-03 1.40000000e-11 CODATA2022 -muH_shield_Nuc shielded helion magn. moment to nuclear magneton r -2.12749772e+00 2.50000000e-08 CODATA2022 -muH_shield_p shielded helion to proton magn. moment ratio -7.61766562e-01 1.20000000e-08 CODATA2022 -muH_shield_p_shield shielded helion to shielded proton magn. moment ra -7.61786131e-01 3.30000000e-09 CODATA2022 -muP_shield shielded proton magn. moment 1.41057047e-26 J T^-1 1.20000000e-33 CODATA2022 -muP_shield_Bhor shielded proton magn. moment to Bohr magneton rati 1.52099313e-03 1.60000000e-11 CODATA2022 -muP_shield_Nuc shielded proton magn. moment to nuclear magneton r 2.79277560e+00 3.00000000e-08 CODATA2022 -aSi_220 {220} lattice spacing of silicon 1.92015571e-08 cm 3.20000000e-16 CODATA2022 -aSi lattice spacing of silicon 1.92015576e-08 cm 5.00000000e-16 CODATA2022 -mAlpha_e alpha particle-electron mass ratio 7.29429954e+03 2.40000000e-07 CODATA2022 -mAlpha alpha particle mass 6.64465734e-24 g 2.00000000e-33 CODATA2022 -EAlpha alpha particle mass energy equivalent 5.97192019e-03 erg 1.80000000e-12 CODATA2022 -EAlpha_MeV alpha particle mass energy equivalent in MeV 5.97192019e-03 erg 1.76239430e-12 CODATA2022 -mAlpha_u alpha particle mass in u 6.64465734e-24 g 1.04613961e-34 CODATA2022 -MAlpha alpha particle molar mass 4.00150618e+00 g / mol 1.20000000e-09 CODATA2022 -mAlpha_p alpha particle-proton mass ratio 3.97259969e+00 2.20000000e-10 CODATA2022 -angstromStar Angstrom star 1.00001495e-08 cm 9.00000000e-15 CODATA2022 -mU atomic mass constant 1.66053907e-24 g 5.00000000e-34 CODATA2022 -mU_E atomic mass constant energy equivalent 1.49241809e-03 erg 4.50000000e-13 CODATA2022 -mU_E_MeV atomic mass constant energy equivalent in MeV 1.49241809e-03 erg 4.48609458e-13 CODATA2022 -mU_eV atomic mass unit-electron volt relationship 1.49241809e-03 erg 4.48609458e-13 CODATA2022 -mU_hartree atomic mass unit-hartree relationship 3.42317769e+07 E_h 1.00000000e-02 CODATA2022 -mU_Hz atomic mass unit-hertz relationship 2.25234272e+23 1 / s 6.80000000e+13 CODATA2022 -mU_invm atomic mass unit-inverse meter relationship 7.51300661e+12 1 / cm 2.30000000e+03 CODATA2022 -mU_J atomic mass unit-joule relationship 1.49241809e-03 erg 4.50000000e-13 CODATA2022 -mU_K atomic mass unit-kelvin relationship 1.08095402e+13 K 3.30000000e+03 CODATA2022 -mU_kg atomic mass unit-kilogram relationship 1.66053907e-24 g 5.00000000e-34 CODATA2022 -au1Hyper atomic unit of 1st hyperpolarizability 3.20636131e-53 C^3 m^3 J^-2 1.50000000e-62 CODATA2022 -au2Hyper atomic unit of 2nd hyperpolarizability 6.23537999e-65 C^4 m^4 J^-3 3.80000000e-74 CODATA2022 -auAct atomic unit of action 1.05457182e-27 erg s 0.00000000e+00 CODATA2022 -auC atomic unit of charge 1.60217663e-19 C 0.00000000e+00 CODATA2022 -auCrho atomic unit of charge density 1.08120238e+12 C m^-3 4.90000000e+02 CODATA2022 -auI atomic unit of current 6.62361824e-03 A 1.30000000e-14 CODATA2022 -auMu atomic unit of electric dipole mom. 8.47835363e-30 C m 1.30000000e-39 CODATA2022 -auE atomic unit of electric field 5.14220675e+11 V m^-1 7.80000000e+01 CODATA2022 -auEFG atomic unit of electric field gradient 9.71736243e+21 V m^-2 2.90000000e+12 CODATA2022 -auPol atomic unit of electric polarizability 1.64877727e-41 C^2 m^2 J^-1 5.00000000e-51 CODATA2022 -auV atomic unit of electric potential 2.72113862e+01 V 5.30000000e-11 CODATA2022 -auQuad atomic unit of electric quadrupole mom. 4.48655152e-40 C m^2 1.40000000e-49 CODATA2022 -Eh atomic unit of energy 4.35974472e-11 erg 8.50000000e-23 CODATA2022 -auF atomic unit of force 8.23872350e-03 dyn 1.20000000e-12 CODATA2022 -auL atomic unit of length 5.29177211e-09 cm 8.00000000e-19 CODATA2022 -auM atomic unit of mag. dipole mom. 1.85480202e-23 J T^-1 5.60000000e-33 CODATA2022 -auB atomic unit of mag. flux density 2.35051757e+09 G 7.10000000e-01 CODATA2022 -auChi atomic unit of magnetizability 7.89103660e-29 J T^-2 4.80000000e-38 CODATA2022 -amu atomic unit of mass 9.10938370e-28 g 2.80000000e-37 CODATA2022 -aup atomic unit of momentum 1.99285191e-19 dyn s 3.00000000e-29 CODATA2022 -auEps atomic unit of permittivity 1.11265006e-10 F m^-1 1.70000000e-20 CODATA2022 -aut atomic unit of time 2.41888433e-17 s 4.70000000e-29 CODATA2022 -auv atomic unit of velocity 2.18769126e+08 cm / s 3.30000000e-02 CODATA2022 -N_a Avogadro constant 6.02214076e+23 1 / mol 0.00000000e+00 CODATA2022 -mu_B Bohr magneton 9.27401008e-24 J T^-1 2.80000000e-33 CODATA2022 -mu_B_eV_T Bohr magneton in eV/T 5.78838181e-05 eV T^-1 1.70000000e-14 CODATA2022 -mu_B_Hz_T Bohr magneton in Hz/T 1.39962449e+10 Hz T^-1 4.20000000e+00 CODATA2022 -mu_B__mT Bohr magneton in inverse meters per tesla 4.66864481e+01 m^-1 T^-1 2.90000000e-07 CODATA2022 -muB_K_T Bohr magneton in K/T 6.71713816e-01 K T^-1 2.00000000e-10 CODATA2022 -rBhor Bohr radius 5.29177211e-09 cm 8.00000000e-19 CODATA2022 -kB Boltzmann constant 1.38064900e-16 erg / K 0.00000000e+00 CODATA2022 -kB_eV_K Boltzmann constant in eV/K 1.38064900e-16 erg / K 0.00000000e+00 CODATA2022 -kB_Hz_K Boltzmann constant in Hz/K 2.08366191e+10 1 / (K s) 0.00000000e+00 CODATA2022 -kB__MK Boltzmann constant in inverse meters per kelvin 6.95034570e-01 1 / (K cm) 4.00000000e-07 CODATA2022 -Z0 characteristic impedance of vacuum 3.76730314e+02 ohm 5.61366546e-08 CODATA2022 -re classical electron radius 2.81794033e-13 cm 1.30000000e-22 CODATA2022 -lambda_compt Compton wavelength 2.42631024e-10 cm 7.30000000e-20 CODATA2022 -lambda_compt_2pi Compton wavelength over 2 pi 3.86159268e-11 cm 1.80000000e-20 CODATA2022 -G0 conductance quantum 7.74809173e-05 S 0.00000000e+00 CODATA2022 -K_J-90 conventional value of Josephson constant 4.83597900e+14 Hz V^-1 0.00000000e+00 CODATA2022 -R_K-90 conventional value of von Klitzing constant 2.58128070e+04 ohm 0.00000000e+00 CODATA2022 -xu(CuKa1) Cu x unit 1.00207697e-11 cm 2.80000000e-18 CODATA2022 -muD_e deuteron-electron mag. mom. ratio -4.66434555e-04 1.20000000e-12 CODATA2022 -mD_e deuteron-electron mass ratio 3.67048297e+03 1.30000000e-07 CODATA2022 -g_D deuteron g factor 8.57438234e-01 2.20000000e-09 CODATA2022 -muD deuteron mag. mom. 4.33073509e-27 J T^-1 1.10000000e-35 CODATA2022 -muD_Bhor deuteron mag. mom. to Bohr magneton ratio 4.66975457e-04 1.20000000e-12 CODATA2022 -muD_Nuc deuteron mag. mom. to nuclear magneton ratio 8.57438234e-01 2.20000000e-09 CODATA2022 -mD deuteron mass 3.34358377e-24 g 1.00000000e-33 CODATA2022 -mD_E deuteron mass energy equivalent 3.00506323e-03 erg 9.10000000e-13 CODATA2022 -mD_E_MeV deuteron mass energy equivalent in MeV 3.00506323e-03 erg 9.13240681e-13 CODATA2022 -mD_u deuteron mass in u 3.34358377e-24 g 6.64215627e-35 CODATA2022 -MD deuteron molar mass 2.01355321e+00 g / mol 6.10000000e-10 CODATA2022 -muD_n deuteron-neutron mag. mom. ratio -4.48206530e-01 1.10000000e-07 CODATA2022 -muD_p deuteron-proton mag. mom. ratio 3.07012209e-01 7.90000000e-10 CODATA2022 -mD_p deuteron-proton mass ratio 1.99900750e+00 1.10000000e-10 CODATA2022 -RrmsD deuteron rms charge radius 2.12799000e-13 cm 7.40000000e-17 CODATA2022 -eps_0 electric constant 8.85418781e-12 F m^-1 1.30000000e-21 CODATA2022 -qE_m electron charge to mass quotient -1.75882001e+11 C kg^-1 5.30000000e+01 CODATA2022 -muE_D electron-deuteron mag. mom. ratio -2.14392349e+03 5.60000000e-06 CODATA2022 -mE_D electron-deuteron mass ratio 2.72443711e-04 9.60000000e-15 CODATA2022 -g_e electron g factor -2.00231930e+00 3.50000000e-13 CODATA2022 -rg_e electron gyromag. ratio 1.76085963e+11 s^-1 T^-1 5.30000000e+01 CODATA2022 -rg_e_2pi electron gyromag. ratio over 2 pi 2.80249516e+04 MHz T^-1 1.70000000e-04 CODATA2022 -muE electron mag. mom. -9.28476470e-24 J T^-1 2.80000000e-33 CODATA2022 -muE_anom electron mag. mom. anomaly 1.15965218e-03 1.80000000e-13 CODATA2022 -muE_Bhor electron mag. mom. to Bohr magneton ratio -1.00115965e+00 1.80000000e-13 CODATA2022 -muE_Nuc electron mag. mom. to nuclear magneton ratio -1.83828197e+03 1.10000000e-07 CODATA2022 -mE electron mass 9.10938370e-28 g 2.80000000e-37 CODATA2022 -mE_E electron mass energy equivalent 8.18710578e-07 erg 2.50000000e-16 CODATA2022 -mE_MeV electron mass energy equivalent in MeV 8.18710578e-07 erg 2.40326495e-16 CODATA2022 -mE_u electron mass in u 9.10938370e-28 g 2.65686251e-38 CODATA2022 -ME electron molar mass 5.48579909e-04 g / mol 1.70000000e-13 CODATA2022 -muE_mu electron-muon mag. mom. ratio 2.06766988e+02 4.60000000e-06 CODATA2022 -mE_mu electron-muon mass ratio 4.83633169e-03 1.10000000e-10 CODATA2022 -muE_n electron-neutron mag. mom. ratio 9.60920500e+02 2.30000000e-04 CODATA2022 -mE_n electron-neutron mass ratio 5.43867344e-04 2.60000000e-13 CODATA2022 -muE_p electron-proton mag. mom. ratio -6.58210688e+02 2.00000000e-07 CODATA2022 -mE_p electron-proton mass ratio 5.44617021e-04 3.30000000e-14 CODATA2022 -mE_tau electron-tau mass ratio 2.87585000e-04 1.90000000e-08 CODATA2022 -mE_alpha electron to alpha particle mass ratio 1.37093355e-04 4.50000000e-15 CODATA2022 -muE_H_shield electron to shielded helion mag. mom. ratio 8.64058257e+02 1.00000000e-05 CODATA2022 -muE_p_shield electron to shielded proton mag. mom. ratio -6.58227597e+02 7.20000000e-06 CODATA2022 -eV electron volt 1.60217663e-12 erg 0.00000000e+00 CODATA2022 -eV_amu electron volt-atomic mass unit relationship 1.78266192e-33 g 5.31372501e-43 CODATA2022 -eV_hartree electron volt-hartree relationship 3.67493222e-02 E_h 7.10000000e-14 CODATA2022 -eV_Hz electron volt-hertz relationship 2.41798924e+14 1 / s 0.00000000e+00 CODATA2022 -eV_invm electron volt-inverse meter relationship 8.06554394e+03 1 / cm 0.00000000e+00 CODATA2022 -eV_J electron volt-joule relationship 1.60217663e-12 erg 0.00000000e+00 CODATA2022 -eV_K electron volt-kelvin relationship 1.16045181e+04 K 0.00000000e+00 CODATA2022 -eV_kg electron volt-kilogram relationship 1.78266192e-33 g 0.00000000e+00 CODATA2022 -e elementary charge 1.60217663e-19 C 0.00000000e+00 CODATA2022 -e_h elementary charge over h 2.41798926e+14 A J^-1 1.50000000e+06 CODATA2022 -F Faraday constant 9.64853321e+04 C mol^-1 0.00000000e+00 CODATA2022 -F_conv Faraday constant for conventional electric current 9.64853251e+04 C_90 mol^-1 1.20000000e-03 CODATA2022 -G_F Fermi coupling constant 4.54379566e+00 s4 / (g2 cm4) 2.33738613e-06 CODATA2022 -alpha fine-structure constant 7.29735257e-03 1.10000000e-12 CODATA2022 -c1 first radiation constant 3.74177185e-05 St erg 0.00000000e+00 CODATA2022 -c1L first radiation constant for spectral radiance 1.19104297e-05 St erg / rad2 0.00000000e+00 CODATA2022 -Eh_amu hartree-atomic mass unit relationship 4.85087021e-32 g 1.46127438e-41 CODATA2022 -Eh_eV hartree-electron volt relationship 4.35974472e-11 erg 8.49153616e-23 CODATA2022 -Eh Hartree energy 4.35974472e-11 erg 8.50000000e-23 CODATA2022 -Eh_E_eV Hartree energy in eV 4.35974472e-11 erg 8.49153616e-23 CODATA2022 -Eh_Hz hartree-hertz relationship 6.57968392e+15 1 / s 1.30000000e+04 CODATA2022 -Eh_invm hartree-inverse meter relationship 2.19474631e+05 1 / cm 4.30000000e-07 CODATA2022 -Eh_J hartree-joule relationship 4.35974472e-11 erg 8.50000000e-23 CODATA2022 -Eh_K hartree-kelvin relationship 3.15775025e+05 K 6.10000000e-07 CODATA2022 -Eh_kg hartree-kilogram relationship 4.85087021e-32 g 9.40000000e-44 CODATA2022 -mH_e helion-electron mass ratio 5.49588528e+03 2.40000000e-07 CODATA2022 -mH helion mass 5.00641278e-24 g 1.50000000e-33 CODATA2022 -mH_E helion mass energy equivalent 4.49953941e-03 erg 1.40000000e-12 CODATA2022 -mH_E_eV helion mass energy equivalent in MeV 4.49953941e-03 erg 1.36185014e-12 CODATA2022 -mH_u helion mass in u 5.00641278e-24 g 1.61072289e-34 CODATA2022 -MH helion molar mass 3.01493225e+00 g / mol 9.10000000e-10 CODATA2022 -mH_p helion-proton mass ratio 2.99315267e+00 1.30000000e-10 CODATA2022 -Hz_amu hertz-atomic mass unit relationship 7.37249732e-48 g 2.15870079e-57 CODATA2022 -Hz_eV hertz-electron volt relationship 6.62607015e-27 erg 0.00000000e+00 CODATA2022 -Hz_Eh hertz-hartree relationship 1.51982985e-16 E_h 2.90000000e-28 CODATA2022 -Hz_invm hertz-inverse meter relationship 3.33564095e-11 1 / cm 0.00000000e+00 CODATA2022 -Hz_J hertz-joule relationship 6.62607015e-27 erg 0.00000000e+00 CODATA2022 -Hz_K hertz-kelvin relationship 4.79924307e-11 K 0.00000000e+00 CODATA2022 -Hz_kg hertz-kilogram relationship 7.37249732e-48 g 0.00000000e+00 CODATA2022 -invalpha inverse fine-structure constant 1.37035999e+02 2.10000000e-08 CODATA2022 -invm_amu inverse meter-atomic mass unit relationship 2.21021909e-39 g 6.64215627e-49 CODATA2022 -invm_eV inverse meter-electron volt relationship 1.98644586e-18 erg 0.00000000e+00 CODATA2022 -invm_Eh inverse meter-hartree relationship 4.55633525e-08 E_h 8.80000000e-20 CODATA2022 -invm_Hz inverse meter-hertz relationship 2.99792458e+08 1 / s 0.00000000e+00 CODATA2022 -invm_J inverse meter-joule relationship 1.98644586e-18 erg 0.00000000e+00 CODATA2022 -invm_K inverse meter-kelvin relationship 1.43877688e-02 K 0.00000000e+00 CODATA2022 -invm_kg inverse meter-kilogram relationship 2.21021909e-39 g 0.00000000e+00 CODATA2022 -invG0 inverse of conductance quantum 1.29064037e+04 ohm 0.00000000e+00 CODATA2022 -K_J Josephson constant 4.83597848e+14 Hz V^-1 0.00000000e+00 CODATA2022 -J_amu joule-atomic mass unit relationship 1.11265006e-14 g 3.32107813e-24 CODATA2022 -J_eV joule-electron volt relationship 1.00000000e+07 erg 0.00000000e+00 CODATA2022 -J_Eh joule-hartree relationship 2.29371228e+17 E_h 4.50000000e+05 CODATA2022 -J_Hz joule-hertz relationship 1.50919018e+33 1 / s 0.00000000e+00 CODATA2022 -J_invm joule-inverse meter relationship 5.03411657e+22 1 / cm 0.00000000e+00 CODATA2022 -J_K joule-kelvin relationship 7.24297052e+22 K 0.00000000e+00 CODATA2022 -J_kg joule-kilogram relationship 1.11265006e-14 g 0.00000000e+00 CODATA2022 -K_amu kelvin-atomic mass unit relationship 1.53617919e-37 g 4.64950939e-47 CODATA2022 -K_eV kelvin-electron volt relationship 1.38064900e-16 erg 0.00000000e+00 CODATA2022 -K_Eh kelvin-hartree relationship 3.16681156e-06 E_h 6.10000000e-18 CODATA2022 -K_Hz kelvin-hertz relationship 2.08366191e+10 1 / s 0.00000000e+00 CODATA2022 -K_invm kelvin-inverse meter relationship 6.95034800e-01 1 / cm 0.00000000e+00 CODATA2022 -K_J kelvin-joule relationship 1.38064900e-16 erg 0.00000000e+00 CODATA2022 -K_kg kelvin-kilogram relationship 1.53617919e-37 g 0.00000000e+00 CODATA2022 -kg_amu kilogram-atomic mass unit relationship 1.00000000e+03 g 2.98897032e-07 CODATA2022 -kg_eV kilogram-electron volt relationship 8.98755179e+23 erg 0.00000000e+00 CODATA2022 -kg_Eh kilogram-hartree relationship 2.06148579e+34 E_h 4.00000000e+22 CODATA2022 -kg_Hz kilogram-hertz relationship 1.35639249e+50 1 / s 0.00000000e+00 CODATA2022 -kg_invm kilogram-inverse meter relationship 4.52443833e+39 1 / cm 0.00000000e+00 CODATA2022 -kg_J kilogram-joule relationship 8.98755179e+23 erg 0.00000000e+00 CODATA2022 -kg_K kilogram-kelvin relationship 6.50965726e+39 K 0.00000000e+00 CODATA2022 -aSi lattice parameter of silicon 5.43102051e-08 cm 8.90000000e-16 CODATA2022 -n0 Loschmidt constant (273.15 K, 101.325 kPa) 2.68678011e+19 1 / cm3 0.00000000e+00 CODATA2022 -mu0 mag. constant 1.25663706e-06 N A^-2 1.90000000e-16 CODATA2022 -Phi0 mag. flux quantum 2.06783385e-15 Wb 0.00000000e+00 CODATA2022 -R molar gas constant 8.31446262e+07 erg / (K mol) 0.00000000e+00 CODATA2022 -Mu molar mass constant 1.00000000e+00 g / mol 3.00000000e-10 CODATA2022 -MC12 molar mass of carbon-12 1.20000000e+01 g / mol 3.60000000e-09 CODATA2022 -h_mol molar Planck constant 3.99031271e-03 St g / mol 0.00000000e+00 CODATA2022 -ch_mol molar Planck constant times c 1.19626566e+08 cm erg / mol 5.40000000e-02 CODATA2022 -v_mol_ideal_100kPa molar volume of ideal gas (273.15 K, 100 kPa) 2.27109546e+04 cm3 / mol 0.00000000e+00 CODATA2022 -v_mol_ideal_101.325kPa molar volume of ideal gas (273.15 K, 101.325 kPa) 2.24139695e+04 cm3 / mol 0.00000000e+00 CODATA2022 -vSI_mol molar volume of silicon 1.20588320e+01 cm3 / mol 6.00000000e-07 CODATA2022 -xu Mo x unit 1.00209952e-11 cm 5.30000000e-18 CODATA2022 -lambda_compt_mu muon Compton wavelength 1.17344411e-12 cm 2.60000000e-20 CODATA2022 -lambda_compt_mu_2pi muon Compton wavelength over 2 pi 1.86759431e-13 cm 4.20000000e-21 CODATA2022 -mMu_e muon-electron mass ratio 2.06768283e+02 4.60000000e-06 CODATA2022 -g_mu muon g factor -2.00233184e+00 1.30000000e-09 CODATA2022 -muMu muon mag. mom. -4.49044830e-26 J T^-1 1.00000000e-33 CODATA2022 -muMu_anom muon mag. mom. anomaly 1.16592089e-03 6.30000000e-10 CODATA2022 -muMu_Bhor muon mag. mom. to Bohr magneton ratio -4.84197047e-03 1.10000000e-10 CODATA2022 -muMu_Nuc muon mag. mom. to nuclear magneton ratio -8.89059703e+00 2.00000000e-07 CODATA2022 -mMu muon mass 1.88353163e-25 g 4.20000000e-33 CODATA2022 -mMu_E muon mass energy equivalent 1.69283380e-04 erg 3.80000000e-12 CODATA2022 -mMu_E_MeV muon mass energy equivalent in MeV 1.69283380e-04 erg 3.68500626e-12 CODATA2022 -mMu_E_u muon mass in u 1.88353163e-25 g 4.15134767e-33 CODATA2022 -MMu muon molar mass 1.13428926e-01 g / mol 2.50000000e-09 CODATA2022 -mMu_n muon-neutron mass ratio 1.12454517e-01 2.50000000e-09 CODATA2022 -muMu_p muon-proton mag. mom. ratio -3.18334514e+00 7.10000000e-08 CODATA2022 -mMu_p muon-proton mass ratio 1.12609526e-01 2.50000000e-09 CODATA2022 -mMu_tau muon-tau mass ratio 5.94635000e-02 4.00000000e-06 CODATA2022 -1 natural unit of action 1.05457182e-27 erg s 0.00000000e+00 CODATA2022 -1_eV_s natural unit of action in eV s 1.05457182e-27 erg s 0.00000000e+00 CODATA2022 -E natural unit of energy 8.18710578e-07 erg 2.50000000e-16 CODATA2022 -E_MeV natural unit of energy in MeV 8.18710578e-07 erg 2.40326495e-16 CODATA2022 -L natural unit of length 3.86159268e-11 cm 1.20000000e-20 CODATA2022 -M natural unit of mass 9.10938370e-28 g 2.80000000e-37 CODATA2022 -p natural unit of momentum 2.73092449e-17 dyn s 3.40000000e-25 CODATA2022 -p_MeV_c natural unit of momentum in MeV/c 5.10998946e-01 MeV/c 3.10000000e-09 CODATA2022 -t natural unit of time 1.28808867e-21 s 3.90000000e-31 CODATA2022 -v natural unit of velocity 2.99792458e+10 cm / s 0.00000000e+00 CODATA2022 -lambda_compt_n neutron Compton wavelength 1.31959091e-13 cm 7.50000000e-23 CODATA2022 -lambda_compt_n_2pi neutron Compton wavelength over 2 pi 2.10019415e-14 cm 1.40000000e-23 CODATA2022 -muN_e neutron-electron mag. mom. ratio 1.04066882e-03 2.50000000e-10 CODATA2022 -mN_e neutron-electron mass ratio 1.83868366e+03 8.90000000e-07 CODATA2022 -g_n neutron g factor -3.82608545e+00 9.00000000e-07 CODATA2022 -rg_n neutron gyromag. ratio 1.83247171e+08 s^-1 T^-1 4.30000000e+01 CODATA2022 -rg_n_2pi neutron gyromag. ratio over 2 pi 2.91646933e+01 MHz T^-1 6.90000000e-06 CODATA2022 -muN neutron mag. mom. -9.66236510e-27 J T^-1 2.30000000e-33 CODATA2022 -muN_Bhor neutron mag. mom. to Bohr magneton ratio -1.04187563e-03 2.50000000e-10 CODATA2022 -muN_Nuc neutron mag. mom. to nuclear magneton ratio -1.91304273e+00 4.50000000e-07 CODATA2022 -mN neutron mass 1.67492750e-24 g 9.50000000e-34 CODATA2022 -mN_E neutron mass energy equivalent 1.50534976e-03 erg 8.60000000e-13 CODATA2022 -mN_E_MeV neutron mass energy equivalent in MeV 1.50534976e-03 erg 8.65175382e-13 CODATA2022 -mN_u neutron mass in u 1.67492750e-24 g 8.13664143e-34 CODATA2022 -MN neutron molar mass 1.00866492e+00 g / mol 5.70000000e-10 CODATA2022 -mN_mu neutron-muon mass ratio 8.89248406e+00 2.00000000e-07 CODATA2022 -muN_p neutron-proton mag. mom. ratio -6.84979340e-01 1.60000000e-07 CODATA2022 -mN_p neutron-proton mass ratio 1.00137842e+00 4.90000000e-10 CODATA2022 -mN_tau neutron-tau mass ratio 5.28779000e-01 3.60000000e-05 CODATA2022 -muN_p_shield neutron to shielded proton mag. mom. ratio -6.84996940e-01 1.60000000e-07 CODATA2022 -G Newtonian constant of gravitation 6.67430000e-08 cm3 / (g s2) 1.50000000e-12 CODATA2022 -G_hbar_c Newtonian constant of gravitation over h-bar c 6.70883000e-39 (GeV/c^2)^-2 1.50000000e-43 CODATA2022 -mu_N nuclear magneton 5.05078375e-27 J T^-1 1.50000000e-36 CODATA2022 -mu_N_eV_T nuclear magneton in eV/T 3.15245126e-08 eV T^-1 9.60000000e-18 CODATA2022 -mu_N_invm_T nuclear magneton in inverse meters per tesla 2.54262343e-02 m^-1 T^-1 1.60000000e-10 CODATA2022 -mu_N_K_T nuclear magneton in K/T 3.65826778e-04 K T^-1 1.10000000e-13 CODATA2022 -mu_N_MHz_T nuclear magneton in MHz/T 7.62259323e+00 MHz T^-1 2.30000000e-09 CODATA2022 -h Planck constant 6.62607015e-27 erg s 0.00000000e+00 CODATA2022 -h_eV_s Planck constant in eV s 6.62607009e-27 erg s 4.00544159e-35 CODATA2022 -hbar Planck constant over 2 pi 1.05457180e-27 erg s 1.30000000e-35 CODATA2022 -hbar_eV_s Planck constant over 2 pi in eV s 1.05457181e-27 erg s 6.40870654e-36 CODATA2022 -chbar_MeV Planck constant over 2 pi times c in MeV fm 3.16152675e-17 cm erg 1.92261196e-25 CODATA2022 -planck_length Planck length 1.61625500e-33 cm 1.80000000e-38 CODATA2022 -planck_mass Planck mass 2.17643400e-05 g 2.40000000e-10 CODATA2022 -planck_mass_E_GeV Planck mass energy equivalent in GeV 1.95608143e+16 erg 2.24304729e+11 CODATA2022 -planck_temp Planck temperature 1.41678400e+32 K 1.60000000e+27 CODATA2022 -plank_time Planck time 5.39124700e-44 s 6.00000000e-49 CODATA2022 -qP_mP proton charge to mass quotient 9.57883316e+07 C kg^-1 2.90000000e-02 CODATA2022 -lambda_compt_p proton Compton wavelength 1.32140986e-13 cm 4.00000000e-23 CODATA2022 -lambda_compt_p_2pi proton Compton wavelength over 2 pi 2.10308910e-14 cm 9.70000000e-24 CODATA2022 -mP_e proton-electron mass ratio 1.83615267e+03 1.10000000e-07 CODATA2022 -g_p proton g factor 5.58569469e+00 1.60000000e-09 CODATA2022 -rg_p proton gyromag. ratio 2.67522187e+08 s^-1 T^-1 1.10000000e-01 CODATA2022 -rg_p_2pi proton gyromag. ratio over 2 pi 4.25774789e+01 MHz T^-1 2.90000000e-07 CODATA2022 -muP proton mag. mom. 1.41060680e-26 J T^-1 6.00000000e-36 CODATA2022 -muP_Bhor proton mag. mom. to Bohr magneton ratio 1.52103220e-03 4.60000000e-13 CODATA2022 -muP_Nuc proton mag. mom. to nuclear magneton ratio 2.79284734e+00 8.20000000e-10 CODATA2022 -muP_shield proton mag. shielding correction 2.56890000e-05 1.10000000e-08 CODATA2022 -mP proton mass 1.67262192e-24 g 5.10000000e-34 CODATA2022 -mP_E proton mass energy equivalent 1.50327762e-03 erg 4.60000000e-13 CODATA2022 -mP_E_MeV proton mass energy equivalent in MeV 1.50327762e-03 erg 4.64631224e-13 CODATA2022 -mP_u proton mass in u 1.67262192e-24 g 8.80085705e-35 CODATA2022 -MP proton molar mass 1.00727647e+00 g / mol 3.10000000e-10 CODATA2022 -mP_mu proton-muon mass ratio 8.88024337e+00 2.00000000e-07 CODATA2022 -muP_n proton-neutron mag. mom. ratio -1.45989805e+00 3.40000000e-07 CODATA2022 -mP_n proton-neutron mass ratio 9.98623478e-01 4.90000000e-10 CODATA2022 -RrmsP proton rms charge radius 8.41400000e-14 cm 1.90000000e-16 CODATA2022 -mP_tau proton-tau mass ratio 5.28051000e-01 3.60000000e-05 CODATA2022 -kappa quantum of circulation 3.63694755e+00 cm2 / s 1.10000000e-09 CODATA2022 -2kappa quantum of circulation times 2 7.27389510e+00 cm2 / s 2.20000000e-09 CODATA2022 -Rinf Rydberg constant 1.09737316e+05 1 / cm 2.10000000e-07 CODATA2022 -cRinf_Hz Rydberg constant times c in Hz 3.28984196e+15 1 / s 6.40000000e+03 CODATA2022 -hcRinf_eV Rydberg constant times hc in eV 2.17987236e-11 erg 4.16565925e-23 CODATA2022 -hcRinf_J Rydberg constant times hc in J 2.17987236e-11 erg 4.20000000e-23 CODATA2022 -S0_R_100kPa Sackur-Tetrode constant (1 K, 100 kPa) -1.15170754e+00 4.50000000e-10 CODATA2022 -S0_R_101.325kPa Sackur-Tetrode constant (1 K, 101.325 kPa) -1.16487052e+00 4.50000000e-10 CODATA2022 -c2 second radiation constant 1.43877688e+00 K cm 0.00000000e+00 CODATA2022 -rg_h_shield shielded helion gyromag. ratio 2.03789457e+08 s^-1 T^-1 2.40000000e+00 CODATA2022 -rg_h_shield_2pi shielded helion gyromag. ratio over 2 pi 3.24340997e+01 MHz T^-1 4.30000000e-07 CODATA2022 -muH_shield shielded helion mag. mom. -1.07455309e-26 J T^-1 1.30000000e-34 CODATA2022 -muH_shield_Bhor shielded helion mag. mom. to Bohr magneton ratio -1.15867147e-03 1.40000000e-11 CODATA2022 -muH_shield_Nuc shielded helion mag. mom. to nuclear magneton rati -2.12749772e+00 2.50000000e-08 CODATA2022 -muH_shield_p shielded helion to proton mag. mom. ratio -7.61766562e-01 8.90000000e-09 CODATA2022 -muH_shield_p_shield shielded helion to shielded proton mag. mom. ratio -7.61786131e-01 3.30000000e-09 CODATA2022 -rg_p_shield shielded proton gyromag. ratio 2.67515315e+08 s^-1 T^-1 2.90000000e+00 CODATA2022 -rg_p_shield_2pi shielded proton gyromag. ratio over 2 pi 4.25763851e+01 MHz T^-1 5.30000000e-07 CODATA2022 -muP_shield shielded proton mag. mom. 1.41057056e-26 J T^-1 1.50000000e-34 CODATA2022 -muP_shield_Bhor shielded proton mag. mom. to Bohr magneton ratio 1.52099313e-03 1.70000000e-11 CODATA2022 -muP_shield_Nuc shielded proton mag. mom. to nuclear magneton rati 2.79277560e+00 3.00000000e-08 CODATA2022 -c speed of light in vacuum 2.99792458e+10 cm / s 0.00000000e+00 CODATA2022 -g standard acceleration of gravity 9.80665000e+02 cm / s2 0.00000000e+00 CODATA2022 -atm standard atmosphere 1.01325000e+06 P / s 0.00000000e+00 CODATA2022 -sigma Stefan-Boltzmann constant 5.67037442e-05 g / (s3 K4) 0.00000000e+00 CODATA2022 -lambda_compt_tau tau Compton wavelength 6.97771000e-14 cm 4.70000000e-18 CODATA2022 -lambda_compt_tau_2pi tau Compton wavelength over 2 pi 1.11056000e-14 cm 1.00000000e-18 CODATA2022 -mTau_e tau-electron mass ratio 3.47723000e+03 2.30000000e-01 CODATA2022 -mTau tau mass 3.16754000e-24 g 2.10000000e-28 CODATA2022 -mTau_E tau mass energy equivalent 2.84684000e-03 erg 1.90000000e-07 CODATA2022 -mTau_E_MeV tau mass energy equivalent in MeV 2.84677949e-03 erg 2.56348261e-07 CODATA2022 -mTau_u tau mass in u 3.16754469e-24 g 2.15870079e-28 CODATA2022 -MTau tau molar mass 1.90754000e+00 g / mol 1.30000000e-04 CODATA2022 -mTau_mu tau-muon mass ratio 1.68170000e+01 1.10000000e-03 CODATA2022 -mTau_n tau-neutron mass ratio 1.89115000e+00 1.30000000e-04 CODATA2022 -mTau_p tau-proton mass ratio 1.89376000e+00 1.30000000e-04 CODATA2022 -sigma_T Thomson cross section 6.65245873e-25 cm2 6.00000000e-34 CODATA2022 -muPsi_e triton-electron mag. mom. ratio -1.62051442e-03 2.10000000e-11 CODATA2022 -mPsi_e triton-electron mass ratio 5.49692154e+03 2.70000000e-07 CODATA2022 -g_psi triton g factor 5.95792493e+00 1.20000000e-08 CODATA2022 -muPsi triton mag. mom. 1.50460952e-26 J T^-1 3.00000000e-35 CODATA2022 -muPsi_Bhor triton mag. mom. to Bohr magneton ratio 1.62239367e-03 3.20000000e-12 CODATA2022 -muPsi_Nuc triton mag. mom. to nuclear magneton ratio 2.97896247e+00 5.90000000e-09 CODATA2022 -mPsi triton mass 5.00735674e-24 g 1.50000000e-33 CODATA2022 -mPsi_E triton mass energy equivalent 4.50038781e-03 erg 1.40000000e-12 CODATA2022 -mPsi_E_MeV triton mass energy equivalent in MeV 4.50038781e-03 erg 1.36185014e-12 CODATA2022 -mPsi_u triton mass in u 5.00735674e-24 g 1.99264688e-34 CODATA2022 -MPsi triton molar mass 3.01550072e+00 g / mol 9.20000000e-10 CODATA2022 -muPsi_n triton-neutron mag. mom. ratio -1.55718553e+00 3.70000000e-07 CODATA2022 -muPsi_p triton-proton mag. mom. ratio 1.06663991e+00 1.00000000e-08 CODATA2022 -mPsi_p triton-proton mass ratio 2.99371703e+00 1.50000000e-10 CODATA2022 -u unified atomic mass unit 1.66053907e-24 g 5.00000000e-34 CODATA2022 -R_K von Klitzing constant 2.58128075e+04 ohm 0.00000000e+00 CODATA2022 -theta_W weak mixing angle 2.22900000e-01 3.00000000e-04 CODATA2022 -b_freq Wien frequency displacement law constant 5.87892576e+10 1 / (K s) 0.00000000e+00 CODATA2022 -b_lambda Wien wavelength displacement law constant 2.89777196e-01 K cm 0.00000000e+00 CODATA2022 -auMom_um atomic unit of mom.um 1.99285188e-19 dyn s 2.40000000e-27 CODATA2022 -mE_h electron-helion mass ratio 1.81954307e-04 7.90000000e-15 CODATA2022 -mE_psi electron-triton mass ratio 1.81920006e-04 9.00000000e-15 CODATA2022 -g_h helion g factor -4.25525061e+00 5.00000000e-08 CODATA2022 -muH helion mag. mom. -1.07461753e-26 J T^-1 1.30000000e-34 CODATA2022 -muH_Bhor helion mag. mom. to Bohr magneton ratio -1.15874096e-03 1.40000000e-11 CODATA2022 -muH_Nuc helion mag. mom. to nuclear magneton ratio -2.12762531e+00 2.50000000e-08 CODATA2022 -n0 Loschmidt constant (273.15 K, 100 kPa) 2.65164580e+19 1 / cm3 0.00000000e+00 CODATA2022 -p_um natural unit of mom.um 2.73092449e-17 dyn s 3.40000000e-25 CODATA2022 -p_um_MeV_c natural unit of mom.um in MeV/c 5.10998946e-01 MeV/c 3.10000000e-09 CODATA2022 -mN-mP neutron-proton mass difference 2.30557435e-27 g 8.20000000e-34 CODATA2022 -mN-mP_E neutron-proton mass difference energy equivalent 2.07214689e-06 erg 7.40000000e-13 CODATA2022 -mN-mP_E_MeV neutron-proton mass difference energy equivalent i 2.07214689e-06 erg 7.37001252e-13 CODATA2022 -mN-mP_u neutron-proton mass difference in u 2.30557435e-27 g 8.13664143e-34 CODATA2022 -stp standard-state pressure 1.00000000e+06 P / s 0.00000000e+00 CODATA2022 -mAlpha alpha particle relative atomic mass 4.00150618e+00 6.30000000e-11 CODATA2022 -muB_invm_T Bohr magneton in inverse meter per tesla 4.66864478e+01 m^-1 T^-1 1.40000000e-08 CODATA2022 -kB_invm Boltzmann constant in inverse meter per kelvin 6.95034800e-01 1 / (K cm) 0.00000000e+00 CODATA2022 -ampere-90 conventional value of ampere-90 1.00000009e+00 A 0.00000000e+00 CODATA2022 -coulomb-90 conventional value of coulomb-90 1.00000009e+00 C 0.00000000e+00 CODATA2022 -farad-90 conventional value of farad-90 9.99999982e-01 F 0.00000000e+00 CODATA2022 -henry-90 conventional value of henry-90 1.00000002e+00 H 0.00000000e+00 CODATA2022 -ohm-90 conventional value of ohm-90 1.00000002e+00 ohm 0.00000000e+00 CODATA2022 -volt-90 conventional value of volt-90 1.00000011e+00 V 0.00000000e+00 CODATA2022 -watt-90 conventional value of watt-90 1.00000020e+07 erg / s 0.00000000e+00 CODATA2022 -mD_amu_rel deuteron relative atomic mass 2.01355321e+00 4.00000000e-11 CODATA2022 -rg_e_MHz_T electron gyromag. ratio in MHz/T 2.80249514e+04 MHz T^-1 8.50000000e-06 CODATA2022 -mE_amu_rel electron relative atomic mass 5.48579909e-04 1.60000000e-14 CODATA2022 -e_hbar elementary charge over h-bar 1.51926745e+15 A J^-1 0.00000000e+00 CODATA2022 -mH_amu_rel helion relative atomic mass 3.01493225e+00 9.70000000e-11 CODATA2022 -h_shield_shift helion shielding shift 5.99674300e-05 1.00000000e-10 CODATA2022 -F_hyperfine_Cs-133 hyperfine transition frequency of Cs-133 9.19263177e+09 1 / s 0.00000000e+00 CODATA2022 -aSi_220_ideal lattice spacing of ideal Si (220) 1.92015572e-08 cm 3.20000000e-16 CODATA2022 -eta luminous efficacy 6.83000000e-05 s3 rad2 cd/(g cm2) 0.00000000e+00 CODATA2022 -rg_n_MHz_T neutron gyromag. ratio in MHz/T 2.91646931e+01 MHz T^-1 6.90000000e-06 CODATA2022 -mN_amu_rel neutron relative atomic mass 1.00866492e+00 4.90000000e-10 CODATA2022 -mu_N_invm nuclear magneton in inverse meter per tesla 2.54262341e-02 m^-1 T^-1 7.80000000e-12 CODATA2022 -h_eV_Hz Planck constant in eV/Hz 6.62607015e-27 erg s 0.00000000e+00 CODATA2022 -rg_p_MHz_T proton gyromag. ratio in MHz/T 4.25774785e+01 MHz T^-1 1.80000000e-08 CODATA2022 -mP_amu_rel proton relative atomic mass 1.00727647e+00 5.30000000e-11 CODATA2022 -lambda_compt_bar reduced Compton wavelength 3.86159268e-11 cm 1.20000000e-20 CODATA2022 -lambda_compt_mu_bar reduced muon Compton wavelength 1.86759431e-13 cm 4.20000000e-21 CODATA2022 -lambda_compt_n_bar reduced neutron Compton wavelength 2.10019416e-14 cm 1.20000000e-23 CODATA2022 -hbar reduced Planck constant 1.05457182e-27 erg s 0.00000000e+00 CODATA2022 -hbar_eV_s reduced Planck constant in eV s 1.05457182e-27 erg s 0.00000000e+00 CODATA2022 -chbar_MeV reduced Planck constant times c in MeV fm 3.16152677e-17 cm erg 0.00000000e+00 CODATA2022 -lambda_compt_p_bar reduced proton Compton wavelength 2.10308910e-14 cm 6.40000000e-24 CODATA2022 -lambda_compt_tau_bar reduced tau Compton wavelength 1.11053800e-14 cm 7.50000000e-19 CODATA2022 -rg_h_shield_MHz_T shielded helion gyromag. ratio in MHz/T 3.24340994e+01 MHz T^-1 3.80000000e-07 CODATA2022 -rg_p_shield_MHz_T shielded proton gyromag. ratio in MHz/T 4.25763847e+01 MHz T^-1 4.60000000e-07 CODATA2022 -d_shield-p_shield_HD shielding difference of d and p in HD 2.02000000e-08 2.00000000e-11 CODATA2022 -t_shield-p_shield_HT shielding difference of t and p in HT 2.41400000e-08 2.00000000e-11 CODATA2022 -tau_E tau energy equivalent 2.84684357e-03 erg 1.92261196e-07 CODATA2022 -psi_amu_rel triton relative atomic mass 3.01550072e+00 1.20000000e-10 CODATA2022 -muPsi_p triton to proton mag. mom. ratio 1.06663992e+00 2.10000000e-09 CODATA2022 -epsilon0 vacuum electric permittivity 8.85418781e-12 F m^-1 1.30000000e-21 CODATA2022 -mu0 vacuum mag. permeability 1.25663706e-06 N A^-2 1.90000000e-16 CODATA2022 -mWZ W to Z mass ratio 8.81530000e-01 1.70000000e-04 CODATA2022 -au Astronomical Unit 1.49597871e+13 cm 0.00000000e+00 IAU 2012 Resolution B2 -pc Parsec 3.08567758e+18 cm 0.00000000e+00 Derived from au + IAU 2015 Resolution B 2 note [4] -kpc Kiloparsec 3.08567758e+21 cm 0.00000000e+00 Derived from au + IAU 2015 Resolution B 2 note [4] -L_bol0 Luminosity for absolute bolometric magnitude 0 3.01280000e+35 erg / s 0.00000000e+00 IAU 2015 Resolution B 2 -L_sun Nominal solar luminosity 3.82800000e+33 erg / s 0.00000000e+00 IAU 2015 Resolution B 3 -GM_sun Nominal solar mass parameter 1.32712440e+26 cm3 / s2 0.00000000e+00 IAU 2015 Resolution B 3 -M_sun Solar mass 1.98840987e+33 g 4.46880543e+28 IAU 2015 Resolution B 3 + CODATA 2018 -R_sun Nominal solar radius 6.95700000e+10 cm 0.00000000e+00 IAU 2015 Resolution B 3 -GM_jup Nominal Jupiter mass parameter 1.26686530e+23 cm3 / s2 0.00000000e+00 IAU 2015 Resolution B 3 -M_jup Jupiter mass 1.89812460e+30 g 4.26589589e+25 IAU 2015 Resolution B 3 + CODATA 2018 -R_jup Nominal Jupiter equatorial radius 7.14920000e+09 cm 0.00000000e+00 IAU 2015 Resolution B 3 -GM_earth Nominal Earth mass parameter 3.98600400e+20 cm3 / s2 0.00000000e+00 IAU 2015 Resolution B 3 -M_earth Earth mass 5.97216787e+27 g 1.34220095e+23 IAU 2015 Resolution B 3 + CODATA 2018 -R_earth Nominal Earth equatorial radius 6.37810000e+08 cm 0.00000000e+00 IAU 2015 Resolution B 3 diff --git a/assets/const/format.sh b/assets/const/format.sh deleted file mode 100755 index 7e53731..0000000 --- a/assets/const/format.sh +++ /dev/null @@ -1,10 +0,0 @@ -#!/bin/sh -if [ "$#" -ne 2 ]; then - echo "Usage: $0 " - exit 1 -fi -input_file="$1" -output_file="$2" -printf 'const char embeddedConstants[] = R"(' > "$output_file" -cat "$input_file" >> "$output_file" -printf ')";\n' >> "$output_file" diff --git a/assets/const/meson.build b/assets/const/meson.build deleted file mode 100644 index 583fb32..0000000 --- a/assets/const/meson.build +++ /dev/null @@ -1,17 +0,0 @@ -data_file = files('const.dat') -command_file = files('format.sh') -output_file = meson.current_build_dir() + '/embedded_constants.h' - -embedded_constants_h = custom_target('embed_constants', - input: data_file, - output: 'embedded_constants.h', - command: ['sh', '-c', command_file[0].full_path()+' @INPUT@ ' + output_file, '@INPUT@', '@OUTPUT@'] -) - -# Ensure the generated header is included -const_data_header = include_directories('.') - -const_data_dep = declare_dependency( - include_directories: const_data_header, - sources: embedded_constants_h -) \ No newline at end of file diff --git a/assets/mesh/sphere.msh b/assets/mesh/sphere.msh deleted file mode 100644 index 416c655ee2b9cd106d956e1d466e6f27ab12367b..0000000000000000000000000000000000000000 GIT binary patch literal 0 HcmV?d00001 literal 34259 zcmZvl1(cRm7q%7Yln@L=6c9vF6h!(UEg&VK(j`bsOAa6{-Q6H5-S9AU!_W*h$-oRC zDuROX-E5n#mu{U}^ho=`yC39!KX>u8 z&pz|aGimcy>fG9}yfwSDZqq&O2Stkgi`C-)`y~6%ec=B4n)v0pq{cJCn7(7kWq&3-?PN=gG@4f|DGj|A3QI^_wQNa_%5@I#PtQ9C64d1$ngDp zmN>r4D#Q2hS>pIEn+)H-XFk6#$ngDp=JT6fhVS1qpWhrZeE**L{Jto|_n&m!m&APk zNymLz%=e#k+*ibW|4GNqDdzXjk1Oln=T-gb_s@@;h@Q!%FMj|0xSqYHFMj|0xSr+K z7r%dgT+d$D7r%dgT+iOn7r%dgT+j08i{C##u4j4m#pltF>sda1@p<&)diJKi_&oY? zJzdq~pG0nBPA?ZXv_`{`qm=HO%jyANM`O z{QmiI3mfM5&yV}QVSfMoxE~ni_s@@8#4x{qe%zvl`Tg_berTBAKR<3U!~FjFaX&K5 z@1GyHxLEPgKR*BZomiK8-<)*a8yt1747k_&na8oNgxJ$ff0iA1=APRyc0#!_wZdGn zx0)=fS?Gu>DOUC2(u=PS+wV^F`?YaIzc9DE?BW-;XSnZ5iA{Fzwi(>ukV|*6L&^Es z6Wn_v8htrB%}rNYEatTWhaP^h(UpE&DC67%_g(Rx5mVOnIqu4ch1E^Jtk;4lH+0U^ zjR}44xIbH6Z#4Y5O|Goikb$x5TGc<}1}-bJ_@%C~?(dhP78ic=mgAD16+7;JxkFc7 zWJH=9S*yjlVbivS=jayU%85OlS99c@S@Ev^*$f>nXO47jo`mH+d1$@+Sgg&E-9-+6 z7Vok>YWl;NAFsOOUHUJ5vgv{=FP7ut*-f9mbmmu_(b+5NlfR zgT9%IN4h6(tW8y@$_-a@ZR+>S{2A*iimk4GsmG1aFS{3uO_*`%PJ-(-_{gmhSu&weUrqY9 zXS}N-cJcN6cdFNnaph7zS2phF7`Ojm)6lpZF>@|A6O&7ef#_1@iXrqb>(Z$ zt{Hjay8A?|T#2VKc^byKAn&D*D`mRk77V$5vs&dyS52(enuy!&3&pxOKMp%psm&Sp z)9unTUTbkHs4iA)@a!fN-rea!>Svi*VP}{dKD+k1Q^oEFHN+ldZdt$O-p+1d<=9D^ zd;H{ju77oG_t$m?pNg%1xyaFe`_H)-8nmcZuH$_-;gw&~ZCKtWs43Pys^oj6cbs;+ ze!lx*yU4pPuJ5S04!6z+wdk|Q<~|cMM!Mgl!d?p7d&kwR``PKtMUDow#SZ_mZRK;n z+;Gd|PFGod_m(TRFi-1KPj3cw#EOg`Id|CdTQ2uoc^Z~n9_==?dGk_(FV6>c#qu7W zSLE5Fhuo2;y`pnnt+rHX)Ul4UY`I5R3XX)w}5~-g346>Q{8QYCg2$ zx?%q$+Yx*z_Tr-jYjfrebF*IA{B%N@aQA(hxnJj>k`Oc!%iir&r(!QBxPtXkc4N?|tFEco%a0Fidhf%~VBn&aE#6tF^ZqDD-UhGUcg@6}-I_M_nr^3p z5o2E-GpSCb>(l6X@^KaKxaMMGhHkId?nG2jqjt;Z4;8%Wip<$xU_q`J*FtREXA3@f zeC}dU?C|3(KemW-gBoO7b>>Q>YbjRXr*hr1{Y;o7JQ1|Joaz3t$K-NH(lW!W5OnWchI#H>pgbMy|3=X2D6);zP@tqNtb(D zm+->pV%^tb51t?1EX7CHg6V%Y+SoN$f_pc|-2Dfxgt_)&2mX%TGGyreU|r#2d1s|N z)TG+dH^YM- zVmb4qXnOWeeDL)1#~%&oa@KwOZuo|CFI)?HiiH#`nsv-`faY2(dC)^haLnn6F za6jlJ)~)aM6H%XC35I0v_x7#+kuIiUzJ~=~jSG51J27SabkDH&S{wuLT+-u2C|CQ~Wt6XAAfhLz@gKxzS^=un9>*?)a^5`zr^0$g` zBhz21zdZbW&{wSSFJDYp)9_GGtKyGSXT5sejoNVJpCL06f_`E{)3tAtr&WU6oT7Pw zqFK%acV9ZVFyH2DuD{p^xz>DJ@wvd|EW7*fx0{3or?wQC(z()oH$ZGi!_?bO^u6!m znvA^C^4jU3#qZ;;x7fbd4HTPNHPg5PyYIL(;U7MIG%6yPeI@jb0X@#RL1G!&zxPGj zGqEn;oZnr@yz4=uFWQ|?KPA$Ih|Nfo=jpQi(XPgKb$&~Tj169FkS?^@)XQ$L*tIM* zlCNJ9>)zX2FVEHsw}OEyW1pN@vdRq+8+GVpo@Xy#b>9`;_2$DR3BieuovIvKbJPtL z%Q2+x_4YlExjSD~PqFTo`@zhmTQ80u(#3rz*6)Ykd(S(tSNGW;zpk8lFR1X|_Rl{cWTo9Sd<$smi$=dEG_q6bCaXjA6pj^9lYGX z=8TJP#kdh-@hR_4`_M(WzCGH0`Rn*g!SJ<{^MBarwi_vSp+~I`l7D;JRoRp^^3TgR zgYp}?{|04L4fsa^CHc8N1wagDy

oEyv^6$pIe1j`oquB8Sh3go%&+=<#ZXsuMCz1FW}OZ0PTF@g_v3rPII#mEtM7KH zkl?P>U-|Tzu3^Ekjdf0MUVJqeFIKfSOO_xkC6 zNV)ju2YzVFqTU^eefKY1xG^EDS$ z@5-I}^^XLNbFQiX{>g-3j#&8`r^;8oe8%;BZCc~-0e6D+N8jjB?dOPKu2`W$lZRD# z8t-b~wS!7dyM9 z%zzmW;)6q(S}vM;=4?=<)ZCwky?M8n{hxUc{l3R7 z6x&kfa^a)B4hJPF4Vc_8Dj_IZXj}UkBd)qdVx=-}9iFjzbg=cK#l0IfyrcQW-Y@jt zc(+)rMa83oZmtOn9;YhR?bS55f}dt?98$k_tXm@1A^pqY=WkvQqBo{+1s=r(M>kzL zxAWXJw^VFKq4Ftu+`AL3$v)y(nzoTay5uk4Iq)FVEfXtRuYT5LsUm~bg*)!K{eDES z^5o$^&VLr`mWzF~v;CO&_Du~kyz*D!)uE9=-Bj;38r3-7{UG-Glzbh#Cd39^PUjo? z$)aPy-4dfaDRwKw1{QB~p+ea!L4mg2qMA0m8$5jH(7op$9d#?khOW*1PN~uRf-Jcs zGGxtgIykofNY!fn?z>fD1+vxbl3`zL@JhYvd2V%&3KpIZ`MP|qt8TSe#Wc_@N4)>>-_36Y754p|tJJvg;D@bMj<-o0<<^O< zA5n1BiIDrjxpkFhe$eP-kaleQ62G=P9IO|sQ*OXl`KszpEw`m&pAqMRFLEr-Qfy>w zutDsHPLKA!Ty0@6I(&PJPaoV51{`jhEr>rFY-GIsM}y2E7lI{6syA&m=U(u9`I-~b zKDRm8B=+v|G;wEYhXoH`?9eF7;e;Tr$h5kD)w&XF7TaI9@!kU~BZI=_JCr-M^LCJ{ zXxI5=!@`0sVq^P0%020`V?n9fpO?x~IxaXjs_(;nTLXHVh6hy=-H^-tsr-7)hXeHBZJ>MM%K!l>UywU?5pjq=8q0N5PY}4 zb)(}YZv?+qo_;mFNqAgQl)bjo(_I3MQV)xFp4e8^La|BLzcy ze|P>`FtNg}+_8n?g4#_64!>JBBG@Aqyj1t`g&g~X$`@CStg`G_5Fel8?90pU2Z7j6 z-FB7B&?+IQ8S~HYyO&=HDi+w*R{q8SEFU+-v$ugp`90|Zx!y=7b&{B`vILbu|)-YMgQ7( zjVm+aR^+j3S6z?abB0%JdeR*iYtpdM7dr;)pKB(yZZhm-n0vlfy2BH8>~tr@Qcmce zy8rAgZfDyPkCHdL8Z3HzFz=lyXWU7#XHrF;+_+$=D|@Wg-ya@b@6KN<+N)z!ggYfv zxptPNhfW`JZ(hz?^PPRi-Nt7(2RDn~3{H!sFZt-3C*`jN%d<89r~L7wZpL#xlkK{8 zJ~$&b<#yMhgHK!tvaOj{?U%oA1V3aMx1!qcZ7xjgl>={u%zovnd;O*2eSUrEN>J)< z?D$PfX1TLsm3|%3p;YthZdRs{;Y$jgcW*xWV$JIv!`wNsTG5++$~rmPz1pB){@#z4 z2Qh^gW|$ngE;ujtIN8L|5-%Th^NK}$I<085d#77O@z?Wh3NDB(d$|4m2lvhgPa^J* zX#3$2S0LHCRzt#XxQk*R?-?ArHqXW2m&3OPU3M3OOR4J3%+oVGxFmLV^^V#y!7C-pB9PYho)ZY@IOZ=hJRyr51+@EsY4;AKUi++s)4h z*TvH2{BTLf%F~0vwIaTJ+UZh|@%0BU4*5GGxFJ@leVHZ8f7u;8`SQe2(elZTYdZcvMcVFGV}BA$#Nx_ z^<;I)RK+g4NU@s77JRh2^L|$~tlRY*`D23SEvtt{Hys*8iB(FqzfFs_hg_!48OAMd z9qR5~8dNOm(J2=#RxDqdocqU}bLl?p7dd=g-{3&^gY(|$*gJ?3Ykntr<^27R1-IvX znt#~Ln?ZvVwW8)8yy9ZT(hS<3u21F*uIBjZVWaPD3KpekJ*|G>Xm?BOa*3{Ad=zYV z8IQEd)U4iA_wc6{m77!u3*y8oH(Qru{mJt#!ELc#5B~W0 z!Nh|>ncA~{Zn*zI&^K-P-?hSy1b4(*7fX4!LCEQ#d51H>vn6i2WRauKwu`>#;>G@a zKFjIpqpt^N*PmDzGW>=ccYgEA<@@#p31Snv4{q_zu-G7`{F0G{-`wt|*Bid4(KEY( zyJF82{H4=tclWs#bsPM#qFq=peBX*!mcO$;`1e2c{O>>S7*3KBTglyG#+vKMBm%Q86?K? z4{=6`vHe4wNn$Mj5HluY`G@#4<{5C0Hnljy@g z#4kwn;UD7c5`FlGIEO@g{}7XR+WUw2MTz$QA%01sy?=;bmSFxNeno=$hnRhY`G+{C z1oIE^s}i67A&dI|8E(O+NDiF;}O&5ZQ~Ks<{je^)25K|h{^xE#v|sv_l!r( zdxech%zN(}kC^v9Fdi|rTEuw7^i|Y&#Ps!{@rdcGnDL0|>m%b4vmeEcM@;`Ej7LoW zC5=Z+|D}vaO#j?b{vjs+>`5_QT6~s~{6oxGoQtyF)F*yD3FajKWYZVsK`zQk{=sW1 z;eYH+eR3|#OT5RYe|*e)6}+iW&Mf)hy^4~5@OU4;k~j6qysJvQS6T88F+T5A@uogm z559lTBibc~O z8c6=ZXPvNy-qa^P{lGq#{6kHCA+c6I{e#c`m6N`d{8LU}Xa{d3`G>w~kKfpv`ea?~ zA?s)&`3IkT!q@}B>Z|bw0gwOuBl>AdpUzj&*XeIfF zw$v5v$*F&c@u{IU-qa`aVV=~>SCW75X-|J`y{XUC68oA=YA5+8mA+8N>7=i{sZac# z60E)CpEUYH9nfC~Zzjh0jM35fY4x4+!+V{Kk4Jm_&c=mH}CZGraozl5AQGehkiI)@B!Y`Cq8EdHc;{pKD7)R4BeTz42*_4vWaYU5}$d())>FFzSBSbtTld{L?8ZR62C(tTW5UchtD3YH$Hvi!#5b8cKF?- zjmA%*@0p~I(xxOn9(%dj`04dMmDE$(V*CvH4(lXsH9j#u?Y9{}qrUS_A8EVs@puP+ zhw+&s@AQy%8lM=S_PdPF+<6DSJBd#Y$j2VzM`oP~S`3Ijq$WN#@^~u~> zD|gU7$v^nLB<8u_n~5Hb_6LklAJr56gU0Wy@6-tOawv(9*F`#<#K-F@9ZBNjb(fAB zpSJWvK8_im7@rzCZhZRSoo}QQ#wW%nZzqk9M_>4-j88wjLyk@xpZUSK&(9bikGA+> z#-|VVi#(q-J|2v5&l#US@M(YE`1A{7UoIFwhrSPxl1Uehk2f>XzhwO6`rcp4CS6YA zbHBi@7@u}yq!*-ccjgbjWqkUbCNZZtpP#*{PyC@0>=(&D_}@veU%jbMeENqyl>9@x84~^c=1qOl zZh-`UB>4w_p|n7HEcpk2m<0RXoBG6OT-YCye~1@Lw147Fed1FKu&0uL@V}Q}e|l4& z^oWs7Ff- zl`}r`VQ(1!<0L-&0xNHP@`lfQ6^u_ia!o%KjZe(Dj91ya zIlKHeaDJN^pYyp%f;Trl-h@QIh4E?6nS-}X;&X;zt&;fEIIOktd4G$<7;TKt`@1Fh zSH>sC=bg63C!Q?PPdnptPRJ4ceQkU^`oV8+eEMN8>8nE$pM1hPCh_S9*2(yc%U&{0 z=Oq5#MApUlyiY&0?`nKv`eBd1F+TI)9rn4K@rkKJcyei8vj6=vY>>s(LKh`(Quu#SH2VLjtYM5{ofI=iYU76Vy$;(NJ zyo@!Bb@PsYf1F|5S4Sk)5Gjo}jI}ct=E1&CFwD=-*Th7_@OZag;(L<}nVo~7X_(Iyd&oRz8AhG)9{ZFa%{Giad6#{s&pC#%2IkHh$n{*qXiu(qpFN(JgfU0P zp-4Wo9eO1@^67{(exCFa5! zmKw%5jK_H)FUt%gALRLp6eTS;jJdFey%KZz!7%ECdZBL4ODhbc=9&KjDNmzaD#kh(lXz%g=LzVGZPScbt;qq>YBro}Bu<-DDW+^LGz>wb`(WiaC?4pS5o>thi!o zBD=(#w;GmSF?SN{qvp05=Ev(QpZRV#EL1TyL4Q%w4#RdRrZ1nforY1j^Q9jpackk7l)Uc;y}=I{3})G+D~#(Cl{*k_o} z8EYgj`wjCoUrs*zalkNYZ?D9C$UYx5jQZOoQH#v^kYUV&T!%`m;jm$TZ)wALM-1CQ zEYWwQbkwkkin;3!N!O%fhOJRdKIciC`QwI>GjihdbHcE7^7l%tll7f6tgd4Am3+lX zrwn5b%w?`bu1_1rJKR^)^(ErG{mkr}gJBhW!t{6tH$+N%L z!VRk>pE_h7%Mm=AaQc3L7b;JA|n9ogk5_VD^zbV`WHw|k^ELD>3 zND+o{4^kJtCL#@^u6d7j$4XI#QPZ4f&IJ1&Z5Ve?ddc5sF^2V$-&Nv{Va!;=$P07v zIlE;Td%jm%EpflZ8OA)BBQ?f6ZyVNAF*)`5yki(1oVn5_-Z19De0odFGr_QNim6Y3 zR_+?sNItbzPNL548RmcU*+=%_zF{>KQxB}2n)t~uYLMDyjqnGCWl?-k`axpve>UtJ z#pIcM$4kE$Ms3!Sm@o7E)v#uYD@jcyYU-h3jCDogeu|NPGi<5i`I7$)cw|_peCm=t zik2QHVax#z``s{d$$bRBD*a*D9>we%^>$r)V%P%38>Ed=r1aD<)?7{^2lV@=VT=c_ zpUD0)Y@a;tDsp;T`r9z}&ercghD{MmD{-z_!!ybF<9`pe$Nc?To;8g6gnO3EF!qLh z@@M`z!}vSR4T<^0Ny!c4tgr{!rC2G2Vg4L&CU`%kVeI!jX{E&er!tHjG8W_Bl2RKM zsu&)f$kG_**4>zT>hE-QgzWiF!8RqYP>Ww=ny|W`&LnH#+-5e6^Tpb!Gxi~iVblck-7tQm)=B%M1SyAM^u?N4ANSIWhH?OmP zBlBagsF#-w<6h!j|K2Nxd5?a%%X1o5QZaL>Br%^?4dV_Zm*phx!d!-t6DRq4dd;v+ z@{dScB=VCx3FD67uAt59hUHM)PvWd_X5KK2eIReGB=$XzVdS52{JoUduwL@HkH3-F zuY88pQA{mRGt|qQh7D01A%#hiQhvi4Do!i;+Am;OOZm*x@9kTL?Uqk&wn)skpkV_P zPm>t$ob^sFLq)`&*p@LzYWA<;K#CsJDV=U^~k5|dC3G%5g-lxyXhLJPw zB=(U#tYX+#im5Mhz}l-C=FibU`C-y0hSgI{9?2(buVxte$}W+!SgHE|hmlu!4a24> zW)B&Qb$)8tKE>pP_1%_g8dhGhuT93QWmqf4)LHRNsRZIVa$(x+b1#4dWQ8@%-z#nIx5vStf%5sQg!Ku)W9(ImVUYC+1rMO zF&F+$Lp?=EpBqMBtdBc}KEE(*k79oR4oKIfFAZy{n7sL%H8QNG{PPm)h?5!{#<^rJ z>;-vgVpw^_zW!iM4dectFa01Ll$sfqInjfKOU(`AJbx~+cg&@QVNDcM)4sl28rDZX zcTXpY-?3JP%}~raBIo3~wPECvu^5x_+89<#F~9F+B=Yl>VTTn{FK4AFsjXquLJg_2 z#2wVmF!t2fJahTlu$79*v(I^Z!|0R!@q5+5up#offBfCk(J-Gg?gMh&$uRDo%hFVd z{B$<#mSSq1I=U-$F)XX%c~TaMe!CjRn!8H=JbYtVTlw)4dzc_~GmLY@`Qcsay1QYV zb@Is`kk1~5asHVDdAlR^G>kfHC;7GaGK`v_9yUnqLvO=4C-mD=qR&2t;j`!5lg#H^ z!^l7T`@Iw)^);-QV(OCmWPSY%V?5SH-;CGaFvg+cyFL#;}lPq z=1T1IAj3Fg^(EFo?S~k)Q1LK{b;L-64dX7KDbeRSX^3H*aq8N?H`K5x^3zJQCF<=v z!?q~qZapGVYr_m{qL{s752@YZhA~I-%y`^SBa$%A18aegG>o&=U*eruX_R3H6thQ1 zCH82vVI35+N7Qb-G{&$n#Ss!?QA^(&wpH;WX|qIr#u~<+Mo6P2<}%JOzpn4)M@Zuh zV-3`MHi`Ep7)Cxf;Ys9lqG623Tlz&Bh5A}z2csdKbvz5%OSsnghkEIHH`eT4<#k`VV+^E+ulF(4P))(jrFtk1%@?H zOs+qZ;-rO!^;XQi+Et=P7a7KTUrM~k`-=_pXY00n^0~w?^76ejN+LH)4V$QVyhP2A z^JRunXY@<1*@xwZ{iv9|Una5dKNwa=@fT7piS?~8th{1!>hrnMFzzby&wUsztul;# zjgSsY?89oqhA0k^SVM%g#xTwiWBGktYZy7C#tul_1wR`0m16dQeC2E zSl?E|m^Zm5pX7R*VY?J(lGaHH(ssib@3cg2xFdHM=4)Y%{1|DcVeBnq9+RS^U4~I( z)Sj=i-G(ujj1u!`_Y* z(n-UXDPARUM^F=|3>&FO;Safy98V;K9uS@81>GmJZlvF1zR(pkd> zC}!`bN$lS_!zw7IK8s7_`n+NEM~yKT`n+J+EXCxCoUsoV4dWcJ{&^C8Tr%u4#pIHl z#z~hAk!WSVM$iyhG0Xdy$4^kl#njC~=OW3|p<3eO)TC z_GrUKDyELEND)$uVdWLGzvPF#jWw*a;?`0P>5_EIup^3@C;NI=iZhHFWPPlY_1!j% z_P3-1_|hH27_XJYn2Z;17&T45X(akgFsz~C>QXxCvUJxl&PqqAo5WeUXBhjJRcb6z z!}kq4p_qJ8n=#T)h7D27y%ZuvNDmC7hNvaxdr11(Fk;qE-pJW6hOJV(MB?6Iyk8C5 zu6T!ZQR4lFhBZ;l8o!b_gTEPeO!0Z?s6;*=8OFU!9-}4p=M%#^EAAq7mDq=;hILTP{8y&iswnoB^H_Ibk?tD5w=L{2jsc3km3iTja0vlw7OutS_r! z)X*e}Gr`%-X4q!MyQOUs=ko=_7>_f^*`q$Q8%92(CC&@u;rp{R$`v-81`i%<6N*8g$!Gvn0zdesIzws zTd6p?)L$Z>?-|A&a!jKBqNKuxF%Ra?Tv)^VhEZc7lCQ-N45K~yOe3*|B8GKT{H+u( zB}hdLYofTh)K0n}eP~!4#neg%iFb<`)>d(QiN5LcBf~N)<}REsQ5(e#B@G*`n7Z&aQOdAh^1qS#NZfm+4Qr+NYl(H-k;)i0PVr2MIz1`q zkm!%~Im31--X^V=m}fb|Dkydm=aT*X*f8qnhIByU&MI#hch5*^gcKoFFl?-1YGIGW z9b3_`GK$MdRV2o&WLQaJsj|deDjUXJ=#zVfxl}Q1n&OEP^%f>oHLSE^&e5k5=jao| z=!@E;Z~Cle*cQd?FZp5()eWQOt4aQh)i8`2WdEoa_V81~HY(1tlVtv#`wA93~jEXs9nIz6wQ^WQv_O%qJ@68PBqWBxB zs}wIaH;lbuj}}TXQVYW-DxNM)lGuxuh80)L{Zd{cFRctqqj;ReJ;9t>8}_l{s?sMC zd2eGFcNz6g-Lvms8P-j)y_ee>MoqAP^cO9)Gi<+N=0HwiUmLbq@fvBl#M;{%My~rv z{!Z&)*lzjue0DU9`Xg7fB-YT$Fy_Eq{N8ppthM~k5_bjXwu@m46c3d)NYrju!+3}G zZ6x;g8^dZT=4{oJsEKZdai;rA*(CO_yJ4)2z3}_c!!YWIyZ*Gqcs&hUqcR^oo? zW!N&s)Y&SDT=zDNI!PwglgLpY!;C1eY6xIjWNvEpg)`6 z8&*MWokV`f%UHvxv6<2Ui8>o+82d-vGgtO+ykQ#@50zL0YoA~kXMuZ(xv;kr4deH% zmQ+SMFHJJ6iQ?y__7Zh5*|748D@zrmo6;1+$Q5%qA(6AGhS6tciGJyGnqiy;YLj|k zebWtVpt!G8UAiI7FpL~BhhtKdG}AE7Ilmu^q%+bi!`N5m>GyWFVcX?1AI>OqnPV99 z=p^-&n9E$lE-I$|0qM3h&oJ()9nyME^&?)7{=OrON`5S3k@5hnA#pH zv6e-Kkz;$V7aLYXj60Y8XWy3?_Kjj{rH^!4T58x4#jKC{v%Y19agJt5)G4`LZdhZ* z&821%_tFoBrB+PMCzGi86^4ybOg{QcvC>Mzs9V-hTZ)rb8OAvnDv=xVvf8j#id#x8 zB<{~OhS4AW`n;?)jJ0ux@b?YY_oHFd0=4P)Xq{n$UoXk8 zZ<}HCMLy}9d2TnXg5oODClcp$hhfxGq(m;6=T5^Ihw(UP)ch{PxOXZ^Wu=?aZo{bg z)e?0dF6}XlTyyrwH@OZB%dB|5#QVIr*Dz|LuH@@1)UY=4J4oFmevkGUM$J;cBPD8h zzhRvfx0ZOHzZ)Getb$_J<|Nj4(6Bm+sZT$bLx!<#=Fd7S$4S==WB%JEYKD5bZW!;>l|GYr?}lO7 z6qlD?kYc5qhK*J{!mtR#7>Dt;NQ@V0*mA|}k3VBkhOwvY?JSACjW%q!V#XUJMMyD* zQA_;(b(E;3Si=@7CZCHX@_EZJ>W_EYOS~6nScqcA^yA$&j6Gm){XX0=jC_(yzYp<- zQG@I`d(XZn7{(fy3v*&FcMY4ZnEGQMslj`Ok&`i!-=q76@gDC?m3Z$b!+3}N_3u3} z?4$7Vi;$DcbiGH`PHy1ig^c4pAVBTKjuoY-wb2VA|>{5f%GT| z!-t=c9vk+ZV$T-n`|n8@@4$KQ55xZbEs@6_?311(VfcHc)zVYL{5=Nay+4yMeBR}~ zzYHTUQBtTx4*oU_4@Mj2`A-r?9$~!qOmhDC--8F^ecpT4us|`trCX(KQZmEv{{5ZR zCu?}lF!r{R#8@|_%=ZB??hT*|zLw+(D zhR+=sA&ropPr~s19m(C0N=hbWHtn8OoW;cOtR|*hvYD8#FPJ!m;_N0)sW^v;8S~%& L2e1GBue<&aH!g3X