Phase-Biased Andreev Diffraction Grating
Abstract
In optical diffraction, the phase difference between sources in a grating or multi-slit mask is determined by the angle to the imaging screen, yielding the familiar multi-lobed diffraction image. Here, we realize a similar phenomenon in a superconductor-semiconductor hybrid circuit configured to allow Andreev scattering from multiple parallel scatterers. Phase differences between scatterers are set by tapping off of a remote superconducting meander. We investigate arrays with two, three, four, and ten Andreev scatterers, examining local and nonlocal diffraction patterns, finding good agreement with a theory of multiple Andreev scattering, not to be confused with multiple Andreev reflection. Adding current-carrying taps to the meander allows individual phase control.
Cite
@article{arxiv.2411.13355,
title = {Phase-Biased Andreev Diffraction Grating},
author = {Magnus R. Lykkegaard and Anders Enevold Dahl and Karsten Flensberg and Tyler Lindemann and Michael J. Manfra and Charles M. Marcus},
journal= {arXiv preprint arXiv:2411.13355},
year = {2025}
}