Response to Comment on: Tunneling in DNA with Spin Orbit coupling

TL;DR

This paper clarifies the validity of a model for tunneling in DNA with spin-orbit coupling, demonstrating that spin-momentum coupling respects Bardarson's theorem and supports the original conclusions about spin polarization.

Contribution

It corrects the previous ansatz by incorporating spin-momentum coupling, ensuring the model aligns with Bardarson's theorem and clarifies the physics of spin polarization in one-dimensional systems.

Findings

The spectrum obeys Bardarson's theorem.

Wavevectors used in the original paper are confirmed.

Spin polarization is consistent with the corrected model.

Abstract

The comment by O. Entin-Wohlman, A. Aharony, and Y. Utsumi, on our paper S. Varela, I. Zambrano, B. Berche, V. Mujica, and E. Medina, Phys. Rev. B 101, 241410(R) (2020) makes a few points related to the validity of our model, especially in the light of the interpretation of Bardarson's theorem: "in the presence of time reversal symmetry and for half-integral spin the transmission eigenvalues of the two terminal scattering matrix come in (Kramers) degenerate pairs". The authors of the comment first propose an ansatz for the wave function in the spin active region and go on to show that the resulting transmission does not show spin dependence, reasoning that spin dependence would violate Bardarson's assertion. Here we clearly show that the ansatz presented assumes spin-momentum independence from the outset and thus just addresses the spinless particle problem. We then find the appropriate eigenfunction contemplating spin-momentum coupling and show that the resulting spectrum obeys Bardarson's theorem. Finally we show that the allowed wavevectors are the ones assumed in the original paper and thus the original conclusions follow. We recognize that the Hamiltonian in our paper written in local coordinates on a helix was deceptively simple and offer the expressions of how it should be written to more overtly convey the physics involved. The relation between spin polarization and torque becomes clear, as described in our paper. This response is a very important clarification in relation to the implications of Bardarson's theorem concerning the possibility of spin polarization in one dimensional systems in the linear regime.