F.
E.
Becerra
Becerra, F. E., Willis, R. T., Rolston, S. L., & Orozco, L. A. (2008). Nondegenerate four-wave mixing in rubidium vapor: The diamond configuration. Physical Review A, 78. http://doi.org/10.1103/PhysRevA.78.013834
Becerra, F. E., Willis, R. T., Rolston, S. L., & Orozco, L. A. (2009). Two-photon dichroic atomic vapor laser lock using electromagnetically induced transparency and absorption. Journal of the Optical Society of America B-Optical Physics, 26, 1315–1320. http://doi.org/10.1364/josab.26.001315
Becerra, F. E., Fan, J. ., Baumgartner, G. ., Goldhar, J. ., Kosloski, J. T., & Migdall, A. . (2013). Demonstration of Nonorthogonal Multi-State Discrimination Below the Standard Quantum Limit. In (pp. 166–166).
Becerra, F. E., Fan, J. ., Baumgartner, G. ., Goldhar, J. ., Kosloski, J. T., & Migdall, A. . (2013). Experimental demonstration of a receiver beating the standard quantum limit for multiple nonorthogonal state discrimination. Nature Photonics, 7, 147–152. http://doi.org/10.1038/nphoton.2012.316
Becerra, F. E., Fan, J. ., Baumgartner, G. ., Goldhar, J. ., Kosloski, J. T., & Migdall, A. . (2013). Beating the Standard Quantum Limit for Nonorthogonal Multi-State Discrimination. In .
Becerra, F. E., Fan, J. ., Baumgartner, G. ., Polyakov, S. V., Goldhar, J. ., Kosloski, J. T., & Migdall, A. . (2011). State Discrimination Signal Nulling Receivers. In (Vol. 8163). http://doi.org/10.1117/12.894087
Becerra, F. E., Fan, J. ., Baumgartner, G. ., Polyakov, S. V., Goldhar, J. ., Kosloski, J. T., & Migdall, A. . (2011). M-ary-state phase-shift-keying discrimination below the homodyne limit. Physical Review A, 84. http://doi.org/10.1103/PhysRevA.84.062324
Becerra, F. E., Fan, J. ., & Migdall, A. . (2013). Implementation of generalized quantum measurements for unambiguous discrimination of multiple non-orthogonal coherent states. Nature Communications, 4. http://doi.org/10.1038/ncomms3028
Becerra, F. E., Fan, J. ., & Migdall, A. . (2015). Photon number resolution enables quantum receiver for realistic coherent optical communications. Nature Photonics, 9, 48–53. http://doi.org/10.1038/nphoton.2014.280