Axes used in dielectric tensor
Posted: Tue May 12, 2020 8:52 pm
Hi all,
I am confused about what axes are used in the output dielectric, electro-optic, and piezoelectric (d tensor) tensors.
I did not align my the optic axis along the z axis, and my axes are non-orthogonal. I understand that most of the well-known formulas from [Veithen2005] use the principal axes. But how do interpret if I didn't work in this system?
For example, say my three primitive lattice vectors are a,b,c, and they are written in terms of the cartesian x,y,z. Then for the dielectric tensor epsilon_ij, do the i and j refer to the cartesian x,y,z or to the direction of my lattice vecotrs a,b,c? The same question goes for the EO r_ijgamma and piezoelectric tensor d_gamma_mu_nu.
Also, I'm trying to apply strain to this system. To get the diagonals of the infinitesimal strain tensor, for example eta_11, must I dilate all three components of a by the same value or just the first a_x? For the off-diagonal components, like eta_2,3, how do I rotate my lattice vectors? At the moment, my approach is to find the axis of rotation, which would be cross(b,c), and then rotate b or c along this axis. Or should I just rotate around the x-axis to obtain eta_23?
Thanks so much,
J
I am confused about what axes are used in the output dielectric, electro-optic, and piezoelectric (d tensor) tensors.
I did not align my the optic axis along the z axis, and my axes are non-orthogonal. I understand that most of the well-known formulas from [Veithen2005] use the principal axes. But how do interpret if I didn't work in this system?
For example, say my three primitive lattice vectors are a,b,c, and they are written in terms of the cartesian x,y,z. Then for the dielectric tensor epsilon_ij, do the i and j refer to the cartesian x,y,z or to the direction of my lattice vecotrs a,b,c? The same question goes for the EO r_ijgamma and piezoelectric tensor d_gamma_mu_nu.
Also, I'm trying to apply strain to this system. To get the diagonals of the infinitesimal strain tensor, for example eta_11, must I dilate all three components of a by the same value or just the first a_x? For the off-diagonal components, like eta_2,3, how do I rotate my lattice vectors? At the moment, my approach is to find the axis of rotation, which would be cross(b,c), and then rotate b or c along this axis. Or should I just rotate around the x-axis to obtain eta_23?
Thanks so much,
J