On-Chip Laser-Driven Free-Electron Spin Polarizer
Abstract
Spin-polarized electron beam sources enable studies of spin-dependent electric and magnetic effects at the nanoscale. We propose a method of creating spin-polarized electrons on an integrated photonics chip by laser driven nanophotonic fields. A two-stage interaction separated by a free space drift length is proposed, where the first stage and drift length introduces spin-dependent characteristics into the probability distribution of the electron wavefunction. The second stage uses an adjusted optical near-field to rotate the spin states utilizing the spin-dependent wavepacket distribution to produce electrons with high ensemble average spin expectation values. This platform provides an integrated and compact method to generate spin-polarized electrons, implementable with millimeter scale chips and table-top lasers.
Cite
@article{arxiv.2507.17993,
title = {On-Chip Laser-Driven Free-Electron Spin Polarizer},
author = {Clarisse Woodahl and Melanie Murillo and Charles Roques-Carmes and Aviv Karnieli and David A. B. Miller and Olav Solgaard},
journal= {arXiv preprint arXiv:2507.17993},
year = {2026}
}