Tulane Quantum Information and Nonlinear Optics Group

Publications

2021

On the experimental feasibility of quantum state reconstruction via machine learning,”," Sanjaya Lohani, Thomas A. Searles, Brian T. Kirby, and Ryan T. Glasser, under review.

Machine learning pipeline for quantum state estimation with incomplete measurements," Onur Danaci, Sanjaya Lohani, Brian T. Kirby, and Ryan T. Glasser, under review.

Experimental Violation of the Leggett-Garg Inequality Using the Polarization of Classical Light," Wenlei Zhang, Ravi K. Saripalli, Jacob M. Leamer, Ryan T. Glasser, and Denys I. Bondar, under review.

“Deep Learning for Eavesdropper Detection in Free-Space Optical ON-OFF Keying," Nicholas J. Savino, Sanjaya Lohani, and Ryan T. Glasser, under review.

Spatial Mode Correction of Single Photons using Machine Learning,”," Narayan Bhusal, Sanjaya Lohani, Chenglong You, Joshua Fabre, Pengcheng Zhao, Erin M. Knutson, Jonathan P. Dowling, Ryan T. Glasser, Omar S. Magana-Loaiza, Adv. Quantum Technol. 2000103 (2021).

2020

Machine learning assisted quantum state estimation," Sanjaya Lohani, Brian T. Kirby, Michael Brodsky, Onur Danaci, and Ryan T. Glasser, Machine Learning: Science and Tech. 1, 035007 (2020). *Top 5 most downloaded articles in the journal in 2020, with an Altmetric score of 69.

Generative Machine Learning for Robust Free-Space Communication," Sanjaya Lohani and Ryan T. Glasser, Nature Communications Physics 3, 177 (2020).

Coherent Optical Communications Enhanced by Machine Intelligence," Sanjaya Lohani and Ryan T. Glasser, Machine Learning: Science and Technology 1, 035006 (2020).

Phase-sensitive amplification via multi-phase-matched four-wave mixing," Erin M. Knutson, Jonathan S. Cross, Sara K. Wyllie, and Ryan T. Glasser. Optics Express 28, 22748-22754 (2020).

Robust Polarimetry via Convex Optimization," Jacob M. Leamer, Wenlei Zhang, Ravi K. Saripalli, Ryan T. Glasser, Denys I. Bondar. Applied Optics 59, 8886 (2020).

Coupled Three-Mode Squeezed Vacuum," Wenlei Zhang and Ryan T. Glasser, under review.

2019

Dispersion Characterization and Pulse Prediction with Machine Learning," Sanjaya Lohani, Erin M. Knutson, Wenlei Zhang, and Ryan T. Glasser, OSA Continuum 2, 3438 (2019).

2018

Optimal mode configuration for multiple phase-matched four-wave mixing processes," Erin M. Knutson, Jon D. Swaim, Sara Rudman, and Ryan T. Glasser, Physical Review A 98, 013828 (2018).

Multi-mode four-wave mixing with a spatially-structured pump," Jon D. Swaim, Erin M. Knutson, Onur Danaci, and Ryan T. Glasser, Optics Letters 43, 2716 (2018).

Turbulence correction with artificial neural networks ," Sanjaya Lohani and Ryan T. Glasser, Optics Letters 43, 2611 (2018).

On the use of deep neural networks in optical communications," Sanjaya Lohani, Erin M. Knutson, Matthew O'Donnell, Sean D. Huver, and Ryan T. Glasser, Applied Optics 57, 15 4180 (2018).

Faster light with competing absorption and gain," Jon D. Swaim and Ryan T. Glasser, Optics Express 26, 10643 (2018).

Sub-shot-noise-limited phase estimation via SU(1,1) interferometer with thermal states," X. Ma, C. You, S. Adhikari, E. Matekole, Ryan T. Glasser, H. Lee, and J. P. Dowling, Optics Express 26, 18492 (2018).

Experimental realization of a feedback optical parametric amplifier with four-wave mixing," Xiaozhou Pan, Hui Chen, Tianxiang Wei, Jun Zhang, Alberto M. Marino, Nicolas Treps, Ryan T. Glasser, and Jietai Jing, Physical Review B Rapid Communication 97 161115(R) (2018).

2017

Squeezed-twin-beam generation in strongly absorbing media,” Jon D. Swaim and Ryan T. Glasser, Physical Review A 96, 033818 (2017).

Causality and information transfer in simultaneously slow- and fast-light media,” Jon D. Swaim and Ryan T. Glasser, Optics Express 25, 24376 (2017).

Atomic vapor as a source of tunable, non-Gaussian self-reconstructing optical modes,” Jon. D. Swaim, Kaitlyn N. David, Erin M. Knutson, Onur Danaci, Christian Rios, and Ryan T. Glasser. – Nature Scientific Reports 7, 42311 (2017).

Room-temperature photon-number-resolved detection using a two-mode squeezer,” Elisha S. Matekole, Deepti Vaidyanathan, Kenji W. Arai, Ryan T. Glasser, Hwang Lee, and Jonathan P. Dowling. Phys. Rev. A 96, 053815 (2017).

2016

All-optical mode conversion via spatially-multimode four-wave mixing,” Onur Danaci, Christian Rios, Ryan T. Glasser. New Journal of Physics 18, 073032 (2016).

Deep learning as a tool to distinguish between high orbital angular momentum optical modes,” Erin M. Knutson, Sanjaya Lohani, Onur Danaci, Sean D. Huver, and Ryan T. Glasser. SPIE Optics and Photonics, Proc. SPIE 9970, 997013 (2016).

"Generation of self-healing beams via four-wave mixing optical mode conversion,” Ryan T. Glasser, Onur Danaci, and Christian Rios. SPIE Optics and Photonics, Proc. SPIE 9950, 99500D (2016).

Multi-channel entanglement distribution using spatial multiplexing from four-wave mixing in atomic vapor,” Prasoon Gupta, Travis Horrom, Brian E. Anderson, Ryan T. Glasser, Paul D. Lett. J. Mod. Opt. 63, 61071891, (2016).