Maj Keith A. Wyman, PhD
Publications
[14] Wyman, K. A. “Atmospheric Propagation of Photonic Qubts: From Laboratory Experiments to Field Demonstrations” Dissertation, Air Force Institute of Technology (2023)
[13] Wyman, K. A. and Patnaik, A. K., ”Atmospheric Turbulence Simulator to Study Photon Pair Indistinguishability in Free-Space Optical Networks”, Optica Quantum 2.0 (2023).
[12] K. Wyman, R. Von-Holle, M. Hyde, and A. Patnaik “Atmospheric Turbulence Simulator to Test Entanglement Quality During Propagation of Photonic Qubits,” Proc. SPIE Conference 12447 Paper 12447-187 (2023)
[11] Poster presentation, Keith Wyman, Alex Ressue, Robert V Holle, Vishwa Ramesh, Robert Deluca, Billie Deluca, Anil Patnaik ”AFIT Quantum Optical Technologies Laboratory” in Center For Quantum Information Science And Engineering Launch Event, OSU (2022)
[10 Wyman, K. A., Hyde, M. W., and Patnaik, A. K., “Qubit propagation through lab simulated atmospheric turbulence,” in [Photonics for Quantum 2022 ], Figer, D. F., ed., 12243, 122430B, International Society for Optics and Photonics, SPIE (2022)
[9] Patnaik, A. K. and Wyman, K., “Qubit propagation under atmospheric turbulences ,” in [Optical and Quantum Sensing and Precision Metrology II ], Scheuer, J. and Shahriar, S. M., eds., PC120162E, International Society for Optics and Photonics, SPIE (2022)
[8] Wyman, K. A. and Patnaik, ”Single Photon Atmospheric Turbulence Simulator Buildup” 2021 Frontiers of Quantum and Mesoscopic Thermodynamics (FQMT) Conference on 21 July 2021
[7] Robert, Johnson, et all, Recent progress in sodium beacon development SPIE, Adaptive Optics Systems VII, 2020
[6] Wyman, K et all, Observation of Sodium Recoil Over Starfire Optical Range, in Imaging and Applied Optics 2019, OSA Technical Digest, 2019
[5] Wyman, K et. all, Measuring the return flux for a sodium beacon created by combining two laser beams, SPIE10703, Adaptive Optics Systems VI, 10 July 2018
[4] Hackett, S et. all, Terrestrial combination of multiple sodium laser beams for increased on-sky beacon brightness, AO4ELT5, January 2017
[3] Wyman, K. Wigner Distribution Functions as a Tool for Studying Gas Phase Alkali Metal Plus Noble Gas Collisions, DTIC, March 2014
[2] Vergien, C. et. All, Single frequency acoustically tailored Raman fiber amplifier, SPIE 8240, February 2012
[1] Wyman, K. Photoionization in a Rubidium Alkali Laser, Directed Energy Conference February 2011