Litcius/Paper detail

Integrated preparation and manipulation of high-dimensional flying structured photons

Haoqi Zhao, Yichi Zhang, Zihe Gao, Jieun Yim, Wu Shuang, Natalia M. Litchinitser, Li Ge, Liang Feng

2024eLight17 citationsDOIOpen Access PDF

Abstract

Abstract The hope for a futuristic global quantum internet that provides robust and high-capacity quantum information transfer lies largely on qudits, the fundamental quantum information carriers prepared in high-dimensional superposition states. However, preparing and manipulating N-dimensional flying qudits as well as subsequently establishing their entanglement are still challenging tasks, which require precise and simultaneous maneuver of 2 (N-1) parameters across multiple degrees of freedom. Here, using an integrated approach, we explore the synergy from two degrees of freedom of light, spatial mode and polarization, to generate, encode, and manipulate flying structured photons and their formed qudits in a four-dimensional Hilbert space with high quantum fidelity, intrinsically enabling enhanced noise resilience and higher quantum data rates. The four eigen spin–orbit modes of our qudits possess identical spatial–temporal characteristics in terms of intensity distribution and group velocity, thereby preserving long-haul coherence within the entirety of the quantum data transmission link. Judiciously leveraging the bi-photon entanglement, which is well preserved in the integrated manipulation process, we present versatile spin–orbit cluster states in an extensive dimensional Hilbert space. Such cluster states hold the promise for quantum error correction which can further bolster the channel robustness in long-range quantum communication.

Topics & Concepts

Quantum entanglementDecoherence-free subspacesQuantum information scienceQuantum channelPhotonQuantumQuantum informationPhysicsQuantum sensorCoherence (philosophical gambling strategy)Quantum stateHilbert spaceComputer scienceQuantum networkQuantum mechanicsQuantum Information and CryptographyOrbital Angular Momentum in OpticsQuantum optics and atomic interactions