Joint entanglement between topology and polarization ensures noise-resistant quantum information processing

Authors

Alexander V. Sergienko, Boston University
David S. Simon
Shuto Osawa, Boston University

Document Type

Conference Proceeding

Publication Date

1-1-2019

Abstract

© OSA 2019 © 2019 The Author(s) Linear-optical photonic quantum walks are used to jointly entangle polarization and winding number. The joint entanglement between distributed and localized parameters ensures quantum information processing tasks enjoy a high degree or error protection.

Recommended Citation

Sergienko, Alexander V.; Simon, David S.; and Osawa, Shuto, "Joint entanglement between topology and polarization ensures noise-resistant quantum information processing" (2019). Stonehill Faculty Scholarship. 64.
https://soar.stonehill.edu/all_faculty_scholarship/64