Deep learning as a tool to distinguish between high orbital angular momentum optical modes

E. M. Knutson; Sanjaya Lohani; Onur Danaci; Sean D. Huver; Ryan T. Glasser

doi:10.1117/12.2242115

14 September 2016 Deep learning as a tool to distinguish between high orbital angular momentum optical modes

E. M. Knutson, Sanjaya Lohani, Onur Danaci, Sean D. Huver, Ryan T. Glasser

Proceedings Volume 9970, Optics and Photonics for Information Processing X; 997013 (2016) https://doi.org/10.1117/12.2242115
Event: SPIE Optical Engineering + Applications, 2016, San Diego, California, United States

Abstract

The generation of light containing large degrees of orbital angular momentum (OAM) has recently been demon- strated in both the classical and quantum regimes. Since there is no fundamental limit to how many quanta of OAM a single photon can carry, optical states with an arbitrarily high difference in this quantum number may, in principle, be entangled. This opens the door to investigations into high-dimensional entanglement shared between states in superpositions of nonzero OAM. Additionally, making use of non-zero OAM states can allow for a dramatic increase in the amount of information carried by a single photon, thus increasing the information capacity of a communication channel. In practice, however, it is difficult to differentiate between states with high OAM numbers with high precision. Here we investigate the ability of deep neural networks to differentiate between states that contain large values of OAM. We show that such networks may be used to differentiate be- tween nearby OAM states that contain realistic amounts of noise, with OAM values of up to 100. Additionally, we examine how the classification accuracy scales with the signal-to-noise ratio of images that are used to train the network, as well as those being tested. Finally, we demonstrate the simultaneous classification of < 100 OAM states with greater than 70 % accuracy. We intend to verify our system with experimentally-produced classi- cal OAM states, as well as investigate possibilities that would allow this technique to work in the few-photon quantum regime.

Citation Download Citation

E. M. Knutson, Sanjaya Lohani, Onur Danaci, Sean D. Huver, and Ryan T. Glasser "Deep learning as a tool to distinguish between high orbital angular momentum optical modes", Proc. SPIE 9970, Optics and Photonics for Information Processing X, 997013 (14 September 2016); https://doi.org/10.1117/12.2242115

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