rho_xy ((abs(mf.Ex/mf.Hy))^2/(2*pi*freq*mu0_const)) "Apparent resistivity, xy"
rho_yx ((abs(mf2.Ey/mf2.Hx))^2/(2*pi*freq*mu0_const)) "Apparent resistivity, yx"
rho_xx ((abs(mf2.Ex/mf2.Hx))^2/(2*pi*freq*mu0_const)) "Apparent resistivity, xx"
rho_yy ((abs(mf.Ey/mf.Hy))^2/(2*pi*freq*mu0_const)) "Apparent resistivity, yy"
phi_xy arg(1[S]*mf.Ex/mf.Hy)[rad]+180[deg] "Apparent resistivity phase, xy"
phi_yx arg(1[S]*mf2.Ey/mf2.Hx)[rad]+180[deg] "Apparent resistivity phase, yx"
phi_xx arg(1[S]*mf2.Ex/mf2.Hx)[rad]+180[deg] "Apparent resistivity phase, xx"
phi_yy arg(1[S]*mf.Ey/mf.Hy)[rad]+180[deg] "Apparent resistivity phase, yy"
S abs((mf2.Ex/mf2.Hx+mf.Ey/mf.Hy)/(mf.Ex/mf.Hy-mf2.Ey/mf2.Hx)) "Impedance skew"