// InSb_1.h

inline double kappa(double T) { // thermal conductivity [W/K/m]
    return 15;
}

inline double dkappa(double T) { // d\kappa/dT
    return 0;               // used to be -0.05
}

inline double rho(double T) { // resistivity [Ohm m]
    return 5e-5;
}

inline double drhorho(double T) { // (d\rho/dT)/\rho
    return 0;               // used to be -0.02;
}

inline double hall(double T) { // Hall coef [m^3/A/s]=[Ohm m/Tesla]
    return -3e-4;
}

inline double dhall(double T) { // dR/dT
    return 0;               // used to be 1e-5;
}

inline double seebeck(double T) { // thermoelectric power [V/K]
    return -3e-4;
}

inline double dseebeck(double T) { // d\alpha/dT
    return 0;               // used to be 1e-6;
}

inline double nernst(double T) { // Nernst coef [m^2/K/s] = [V/K/Tesla]
    return -7e-5;
    // return 7e-5;  // reverse the sign experimentally
}

inline double dnernst(double T) { // dN/dT
    return 0;               // used to be 5e-7;
}

inline double righi_leduc(double T) { // Righi-Leduc coef [m^2/V/s] = [/Tesla]
    return 0.05;
}