e_awx if(Tenab,sys3.e_phi1[1/rad]*(2*pi*Darm/2)/sqrt((2*pi*Darm/2)^2+LLarm^2),0) "Armor wire direction, x-component (unit vector)"
e_awy if(Tenab,sys3.e_phi2[1/rad]*(2*pi*Darm/2)/sqrt((2*pi*Darm/2)^2+LLarm^2),0) "Armor wire direction, y-component (unit vector)"
e_awz if(Tenab,LLarm/sqrt((2*pi*Darm/2)^2+LLarm^2),1) "Armor wire direction, z-component (unit vector)"
BL e_awx*mf.Bx+e_awy*mf.By+e_awz*mf.Bz "Magnetic flux density, longitudinal component"
BLx e_awx*BL "Longitudinal magnetic flux density, x-component"
BLy e_awy*BL "Longitudinal magnetic flux density, y-component"
BLz e_awz*BL "Longitudinal magnetic flux density, z-component"
BTx mf.Bx-BLx "Transverse magnetic flux density, x-component"
BTy mf.By-BLy "Transverse magnetic flux density, y-component"
BTz mf.Bz-BLz "Transverse magnetic flux density, z-component"
JL e_awx*mf.Jx+e_awy*mf.Jy+e_awz*mf.Jz "Current density, longitudinal component"
JLx e_awx*JL "Longitudinal current density, x-component"
JLy e_awy*JL "Longitudinal current density, y-component"
JLz e_awz*JL "Longitudinal current density, z-component"
JTx mf.Jx-JLx "Transverse current density, x-component"
JTy mf.Jy-JLy "Transverse current density, y-component"
JTz mf.Jz-JLz "Transverse current density, z-component"
normBLi sqrt(real(BLx)^2+real(BLy)^2+real(BLz)^2) "Longitudinal magnetic flux density norm (instantaneous)"
normBTi sqrt(real(BTx)^2+real(BTy)^2+real(BTz)^2) "Transverse magnetic flux density norm (instantaneous)"
normJLi sqrt(real(JLx)^2+real(JLy)^2+real(JLz)^2) "Longitudinal current density norm (instantaneous)"
normJTi sqrt(real(JTx)^2+real(JTy)^2+real(JTz)^2) "Transverse current density norm (instantaneous)"
normBL sqrt(abs(BLx)^2+abs(BLy)^2+abs(BLz)^2) "Longitudinal magnetic flux density norm (absolute)"
normBT sqrt(abs(BTx)^2+abs(BTy)^2+abs(BTz)^2) "Transverse magnetic flux density norm (absolute)"
normJL sqrt(abs(JLx)^2+abs(JLy)^2+abs(JLz)^2) "Longitudinal current density norm (absolute)"
normJT sqrt(abs(JTx)^2+abs(JTy)^2+abs(JTz)^2) "Transverse current density norm (absolute)"