Abstract

Optical orbital angular momentum (OAM) is a special property of photons and has evoked research onto the light–matter interaction in both classical and quantum regimes. In classical optics, OAM is related to an optical vortex with a helical phase structure. In quantum optics, photons with a twisted or helical phase structure will carry a quantized OAM. To our knowledge, however, so far, no experiment has demonstrated the fundamental property of the OAM at the single-photon level. In this Letter, we have demonstrated the average photon trajectories of twisted photons in a double-slit interference. We have experimentally captured the double-slit interference process of twisted photons by a time-gated intensified charge-coupled device camera, which is trigged by a heralded detection. Our work provides new perspectives for understanding the micro-behaviors of twisted particles and enables new applications in imaging and sensing.

© 2020 Chinese Laser Press

Two-photon double-slit interference experiment

C. K. Hong and T. G. Noh
J. Opt. Soc. Am. B 15(3) 1192-1197 (1998)

Double-slit interference with Laguerre-Gaussian beams

H. I. Sztul and R. R. Alfano
Opt. Lett. 31(7) 999-1001 (2006)

Interference from a nonlocal double-slit through one-photon process

Shu Gan, Su-Heng Zhang, Jun Xiong, and Kaige Wang
Opt. Express 17(26) 23672-23677 (2009)

Double-slit interference experimental platform based on a Sagnac interferometer

Pan Liu, Xin-Bing Song, Mairikena Aili, Xiao-Xiao Chen, and An-Ning Zhang
Appl. Opt. 62(17) 4524-4529 (2023)

Observation of Young’s double-slit interference with the three-photon N00N state

Yong-Su Kim, Osung Kwon, Sang Min Lee, Jong-Chan Lee, Heonoh Kim, Sang-Kyung Choi, Hee Su Park, and Yoon-Ho Kim
Opt. Express 19(25) 24957-24966 (2011)