Optical and Quantum
Communications Group

Professor Jeffrey H. Shapiro and Dr. Franco N.C. Wong

Publications

Recent Journal Articles

  1. J.H. Shapiro, and N.C. Wong, “An ultrabright narrowband source of polarization-entangled photon pairs,” J. Opt. B: Quantum Semiclass. Opt. 2, L1 (2000).
  2. V. Giovannetti, S. Lloyd, L. Maccone, and F.N.C. Wong, “Clock synchronization with dispersion cancellation,” Phys. Rev. Lett. 87, 117902 (2001).
  3. S. Lloyd, M.S. Shahriar, J.H. Shapiro, and P.R. Hemmer, “Long distance, unconditional teleportation of atomic states via complete Bell state measurements,” Phys. Rev. Lett. 87, 167903 (2001).
  4. A. Lvovsky and J.H. Shapiro, “Nonclassical character of statistical mixtures of the single-photon and vacuum optical states,” Phys. Rev. A 65, 033830 (2002).
  5. V. Giovannetti, L. Maccone, J.H. Shapiro, and F.N.C. Wong, “Generating entangled two-photon states with coincident frequencies,” Phys. Rev. Lett. 88, 183602 (2002).
  6. C.E. Kuklewicz, E. Keskiner, F.N.C. Wong, and J.H. Shapiro, “A high-flux entanglement source based on a doubly-resonant optical parametric amplifier,” J. Opt. B: Quantum and Semiclass. Opt. 4, S162 (2002).
  7. J.H. Shapiro, “Architectures for long-distance quantum teleportation,” New J. Phys. 4, 47.1 (2002).
  8. E.J. Mason, M.A. Albota, F. König, and F.N.C. Wong, “Efficient generation of tunable photon pairs at 0.8 and 1.6 µm,” Opt. Lett. 27, 2115 (2002).
  9. V. Giovannetti, S. Lloyd, L. Maccone, and F.N.C. Wong, “Clock synchronization and dispersion,” J. Opt. B: Quantum and Semiclass. Opt. 4, S415, (2002).
  10. V. Giovannetti, L. Maccone, J.H. Shapiro, and F.N.C. Wong, “Extended phase-matching conditions for improved entanglement generation,” Phys. Rev. A 66, 043813 (2002).
  11. S. Lloyd, J.H. Shapiro, and F.N.C. Wong. “Quantum magic bullets by means of entanglement,” J. Opt. Soc. Am. B 19, 312 (2002).
  12. S.M. Haas, J.H. Shapiro, and V. Tarokh, “Space-time codes for wireless optical communications.” EURASIP J. on Appl. Signal Proc. 3, 211 (2002).
  13. J.H. Shapiro, “Near-field turbulence effects on quantum-key distribution,” Phys. Rev. A 67, 022309 (2003).
  14. S.M. Haas, and J.H. Shapiro, “Capacity of wireless optical communications,” IEEE J. Sel. Areas in Commun. 21, 1346 (2003).
  15. B.J. Yen, and J.H. Shapiro, “Error models for long-distance qubit teleportation,” IEEE J. Special Topics in Quantum Electron 9, 1483 (2003).
  16. M. Fiorentino, G. Messin, C.E. Kuklewicz, F.N.C. Wong, and J.H. Shapiro, “Generation of ultrabright tunable polarization entanglement without spatial, spectral, or temporal constraints,”  Phys. Rev. A 69, 041801 (2004).
  17. C.E. Kuklewicz, M. Fiorentino, G. Messin, F.N.C. Wong, and J.H. Shapiro, “High-flux source of polarization-entangled photons from a periodically poled KTiOPO4 parametric down-converter,” Phys. Rev. A 69, 013807 (2004).
  18. S. Lloyd, J.H. Shapiro, F.N.C. Wong, P. Kumar, M.S. Shahriar, and H.P. Yuen, “Infrastructure for the quantum internet,” Comput. Commun, Rev. 34, 9 (2004).
  19. V. Giovannetti, S. Guha, S. Lloyd, L. Maccone, and J.H. Shapiro, “Minimum output entropy of bosonic channels: a conjecture,” Phys. Rev. A 70, 032315 (2004).
  20. V. Giovannetti, S. Lloyd, L. Maccone, J.H. Shapiro, and B.J. Yen, “Minimal Renyi and Wehrl entropies at the output of bosonic channels,” Phys. Rev. A 70, 022328 (2004).
  21. V. Giovannetti, S. Guha, S. Lloyd, L. Maccone, J.H. Shapiro, and H.P. Yuen, “Classical capacity of the lossy bosonic channel: the exact solution,” Phys. Rev. Lett. 92, 027902 (2004).
  22. V. Giovannetti, S. Lloyd, L. Maccone, and J.H. Shapiro, “Information rate of a waveguide,” Phys. Rev. A 69, 052310 (2004).
  23. J.J. Zondy, D. Kolker, and F.N.C. Wong, “Dynamical signatures of self-phase-locking in a triply resonant optical parametric oscillator,” Phys. Rev. Lett. 93, 043902 (2004).
  24. M.A. Albota, and F.N.C. Wong, “Efficient single-photon counting at 1.55 µm by means of frequency upconversion,” Opt. Lett. 29, 1449 (2004).
  25. M. Fiorentino and F.N.C. Wong, “Deterministic controlled-not gate for single-photon two-qubit quantum logic,” Phys. Rev. Lett. 93, 070502 (2004).
  26. V. Giovannetti, S. Lloyd, L. Maccone, J.H. Shapiro, and F.N.C. Wong, “Conveyor-belt clock synchronization,” Phys. Rev. A 70, 043808 (2004).
  27. P. Kumar, P. Kwiat, A. Migdall, S.W. Nam, J. Vuckovic, and F.N.C. Wong, “Photonic technologies for quantum information processing,” Quantum Inform. Process. 3, 215 (2004).
  28. M. Razavi, and J.H. Shapiro, “Wireless optical communications via diversity reception and optical preamplificaiton,” IEEE Trans. Wireless Commun., 4, 975 (2005).
  29. J.H. Shapiro, S. Guha, and B.I. Erkmen, “Ultimate channel capacity of free-space optical communications,” J. Opt. Networking, 4, 505 (2005).
  30. B.J. Yen, and J.H. Shapiro, “Multiple-access bosonic communications.” Phys. Rev. A 72, 062312 (2005).
  31. M. Fiorentino, T. Kim, and F.N.C. Wong, “Single-photon two-qubit SWAP gate for entanglement manipulation,” Phys. Rev. A 72, 012318 (2005).
  32. O. Kuzucu, M. Fiorentino, M.A. Albota, F.N.C. Wong, and F. X. Kärtner, “Two-photon coincident-frequency entanglement via extended phase matching,” Phys. Rev. Lett. 94, 083601 (2005).
  33. S.M. Foreman, A. Marian, J. Ye, E.A. Petrukhin, M.A. Gubin, O.D. Mücke, F.N.C. Wong, E.P. Ippen, and F.X. Kärtner, “Demonstration of a HeNe/CH4-based optical molecular clock,” Opt. Lett. 30, 570 (2005).
  34. V. Giovannetti, S. Guha, S. Lloyd, L. Maccone, J.H. Shapiro, B.J. Yen, and H.P. Yuen, “Classical capacity of free-space optical communication,” Quantum Information and Computation 4, 489 (2005).
  35. V. Giovannetti, S. Guha, S. Lloyd, L. Maccone, J.H. Shapiro, and B.J. Yen, “Minimum output entropy of a gaussian bosonic channel,” International Journal of Quantum Information 3, 153 (2005).
  36. M. Fiorentino, C.E. Kuklewicz, and F.N.C. Wong, “Source of polarization entanglement in a single periodically poled KTiOPO4 crystal with overlapping emission cones,“ Opt. Express 13, 127 (2005).
  37. F. König, E.J. Mason, F.N.C. Wong, and M.A. Albota, “Efficient and spectrally bright source of polarization-entangled photons,“ Phys. Rev. A 71, 033805 (2005).
  38. J.H. Shapiro, and F.N.C. Wong, “Attacking quantum key distribution with single-photon two-qubit quantum logic,” Phys. Rev. A 73, 012315 (2006).
  39. J.H. Shapiro, and R.S. Bondurant, “Qubit degradation due to cross-phase-modulation photon-number measurement,” Phys. Rev. A 73, 022301 (2006).
  40. J.H. Shapiro, “Performance analysis for Brandt’s conclusive entangling probe,” Quantum Inform. Process, 5, 11 (2006).
  41. M. Razavi and J.H. Shapiro, “Long-distance quantum communication with neutral atoms,” Phys. Rev. A 73, 042303 (2006).
  42. M.A. Albota, F.N.C. Wong, and J.H. Shapiro, “Polarization-independent frequency conversion for quantum optical communication,” J. Opt. Soc. Am. B 23, 918 (2006).
  43. T. Kim, M. Fiorentino, and F.N.C. Wong, “Phase-stable source of polarization-entangled photons using a polarization Sagnac interferometer,” Phys. Rev. A 73, 012316 (2006).
  44. J.H. Shapiro, “Single-photon Kerr nonlinearities do not help quantum computation,” Phys. Rev. A 73, 062305 (2006).
  45. C.E. Kuklewicz, F.N.C. Wong, J.H. Shapiro, “Time-bin-modulated biphotons from cavity-enhanced down-conversion,” Phys. Rev. Lett. 97, 223601 (2006).
  46. B.I. Erkmen, J.H. Shapiro, “Phase-conjugate optical coherence tomography,” Phys. Rev. A 74, 041601  (2006).
  47. F.N.C. Wong, J.H. Shapiro, T. Kim, “Efficient generation of polarization-entangled photons in a nonlinear crystal,“Laser Physics 16, 1517 (2006).
  48. C.E. Kuklewicz, F.N.C, Wong, J.H. Shapiro, “Time-bin-modulated biphotons from cavity-enhanced down-conversion,” Phys. Rev. Lett. 97, 223601 (2006).
  49. J.H. Shapiro, M. Razavi, “Continuous-time cross-phase modulation and quantum computation,” New Journal Of Physics  9, 16 (2007).
  50. M. Razavi, J.H. Shapiro, “Nonadiabatic approach to entanglement distribution over long distances,” Phys. Rev. A 75, 032318 (2007).
  51. M. Razavi, J.H. Shapiro, “Nonadiabatic approach to entanglement distribution over long distances,” Phys. Rev. A 75, 032318 (2007).
  52. T. Kim, I.S.G. Wersborg, F.N.C. Wong, “Complete physical simulation of the entangling-probe attack on the Bennett-Brassard 1984 protocol,” Phys. Rev. A 75, 042327 (2007).
  53. S. Guha, J.H. Shapiro, B.I. Erkmen, “Classical capacity of bosonic broadcast communication and a minimum output entropy conjecture,” Phys. Rev. A 76, 032303 (2007).
  54. J.H. Shapiro, F.N.C. Wong, “On-demand single-photon generation using a modular array of parametric downconverters with electro-optic polarization controls,” Optics Letters 32, 2698 (2007).
  55. O. Kuzucu, F.N.C. Wong, D.E. Zelmon, “Generation of 250 mW narrowband pulsed ultraviolet light by frequency quadrupling of an amplified erbium-doped fiber laser,” Optics Letters 32, 1290 (2007).
  56. O. Kuzucu, F.N.C. Wong, “Pulsed Sagnac source of narrow-band polarization-entangled photons,” Phys. Rev. A 77, 032314 (2008).
  57. O. Kuzuc, F.N.C. Wong, S. Kurimura, “Time-resolved single-photon detection by femtosecond upconversion,” Optics Letters 33, 2257 (2008).
  58. O. Kuzucu, F.N.C. Wong, S. Kurimura, “Joint Temporal Density Measurements for Two-Photon State Characterization,” Phys. Rev. Lett. 101, 153602 (2008).
  59. B.I. Erkmen, J.H. Shapiro, “Unified theory of ghost imaging with Gaussian-state light,” Phys. Rev. A 77, 043809 (2008).
  60. J.H. Shapiro, “Continuous positive-operator-valued measurement of photon polarization, “Phys. Rev. A 77, 052330 (2008).
  61. B.I. Erkmen, J.H. Shapiro, “Gaussian-state theory of two-photon imaging,” Phys. Rev. A 78, 023835 (2008).
  62. M. Tsang, J.H. Shapiro, S. Lloyd, “Quantum theory of optical temporal phase and instantaneous frequency,”Phys. Rev. A 78, 053820 (2008).
  63. J.H. Shapiro, “Computational ghost imaging, ” Phys. Rev. A 78, 061802 (2008).
  64. S.H. Tan, B.I. Erkmen, V. Giovannetti, S. Guha, S.  Lloyd, L. Maccone, S. Pirandola, J.H. Shapiro, “Quantum Illumination with Gaussian States,” Phys. Rev. Lett. 101, 253601 (2008).
  65. V. Giovannetti, S. Lloyd, L. Maccone, J.H. Shapiro, ” Sub-Rayleigh-diffraction-bound quantum imaging,” Phys. Rev. A 79, 013827 (2009).
  66. B.I. Erkmen, J.H. Shapiro, “Signal-to-noise ratio of Gaussian-state ghost imaging,” Phys. Rev. A 79, 023833 (2009).
  67. M. Tsang, J.H. Shapiro, S. Lloyd, “Quantum theory of optical temporal phase and instantaneous frequency. II. Continuous-time limit and state-variable approach to phase-locked loop design,” Phys. Rev. A 79, 053843 (2009).
  68. R. Garcia-Patron, S. Pirandola, S. Lloyd, J.H. Shapiro, “Reverse Coherent Information,” Phys. Rev. Lett. 102, 210501 (2009).
  69. J.H. Shapiro, S. Lloyd, “Quantum illumination versus coherent-state target detection,” New JournaL Of Physics 11, 063045 (2009).
  70. J.H. Shapiro, “Defeating passive eavesdropping with quantum illumination,” Phys. Rev. A 80, 022320 (2009).
  71. J. Le Gouet, D. Venkatraman, F.N.C. Wong, J.H. Shapiro, “Classical low-coherence interferometry based on broadband parametric fluorescence and amplification,” Optics Express 17, 17874-17887 (2009).
  72. J.H. Shapiro, “The Quantum Theory of Optical Communications,” Quantum Electronics 6, 1547-1569 (2009).
  73. T. Zhong, F.N.C. Wong, T.D. Roberts, P. Battle, “High performance photon-pair source based on a fiber-coupled periodically poled KTiOPO4 waveguide,” Optics Express 17, 12019-12030 (2009).
  74. A.H. Nejadmalayeri, F.N.C. Wong, T.D. Roberts, P. Battle, F.X. Kaertner, “Guided wave optics in periodically poled KTP: quadratic nonlinearity and prospects for attosecond jitter characterization,” Opt. Lett. 34, 2522-2524 (2009).
  75. J. Le Gouet, D. Venkatraman, F.N.C. Wong, J.H. Shapiro, “Classical low-coherence interferometry based on broadband parametric fluorescence and amplification,” Optics Express 17, 17874-17887 (2009).
  76. X. Hu, T. Zhong, J.E. White, E.A. Dauler, F. Najafi, C.H. Herder, F.N.C. Wong, K.K. Berggren, “Fiber-coupled nanowire photon counter at 1550 nm with 24% system detection efficiency,” OPTICS LETTERS  34, 3607-3609 (2009).
  77. J.H. Shapiro, “Dispersion cancellation with phase-sensitive Gaussian-state light,” Phys. Rev. A 81, 023824 (2010).
  78. J. Le Gouet, D. Venkatraman, F.N.C. Wong, J.H. Shapiro, “Experimental realization of phase-conjugate optical coherence tomography,” Optics Letters 35, 1001-1003 (2010).
  79. J.H. Shapiro, “The Quantum Theory of Optical Communications (vol 15, pg 1547, 2009),” IEEE Journal of Selected Topics in Quantum electronics 16, 698-698 (2010).
  80. Z. Dutton, J.H. Shapiro, S. Guha, “LADAR resolution improvement using receivers enhanced with squeezed-vacuum injection and phase-sensitive amplification,” Journal of the Optical Society of America B-Optical Physics 27, A63-A72 (2010).
  81. Z. Dutton, J.H. Shapiro, S. Guha, “LADAR resolution improvement using receivers enhanced with squeezed-vacuum injection and phase-sensitive amplification (vol 27, pg A63, 2010),” Journal of the Optical Society of America B-Optical Physics 27, 2007-2008 (2010).
  82. F. Guerrieri, L. Maccone, F.N.C. Wong, J.H. Shapiro, S. Tisa, F. Zappa, ” Sub-Rayleigh Imaging via N-Photon Detection,” Phys. Rev. Lett. 105, 163602 (2010).
  83. J. Le Gouet, D. Venkatraman, F.N.C. Wong, J.H. Shapiro, “Experimental realization of phase-conjugate optical coherence tomography,” Optics Letters 35, 1001-1003 (2010).
  84. T. Zhong, X. Hu, F.N.C. Wong, K.K. Berggren, T.D. Roberts, P. Battle, “High-quality fiber-optic polarization entanglement distribution at 1.3 mu m telecom wavelength,” Optics Letters 35, 1392-1394 (2010).
  85. T. Zhong, F.N.C. Wong, T.D. Roberts, P. Battle, “High performance photon-pair source based on a fiber-coupled periodically poled KTiOPO4 waveguide (vol 17, pg 12019, 2009),” Optics Express 18, 20114-20114 (2010).
  86. F. Guerrieri, L. Maccone, F.N.C. Wong, J.H. Shapiro, S. Tisa, F. Zappa, “Sub-Rayleigh Imaging via N-Photon Detection,” Phys. Rev. Lett. 105, 163602 (2010).
  87. S. Mouradian, F.N.C. Wong, J.H. Shapiro, “Achieving sub-Rayleigh resolution via thresholding,” Optics Express 19, 5480-5488 (2011).
  88. P.B. Dixon, G.A. Howland, K.W.C. Chan, C. O’Sullivan-Hale, B. Rodenburg, N.D. Hardy, J.H. Shapiro, D.S. Simon, A.V. Sergienko, R.W. Boyd, J.C. Howell, “Quantum ghost imaging through turbulence,” Phys. Rev. A 83, 051803 (2011).
  89. A. Lapidoth, J.H. Shapiro, V. Venkatesan, L.G. Wang, “The Discrete-Time Poisson Channel at Low Input Powers,” IEEE Transactions on Information Theory 57,  3260-3272 (2011).
  90. J.H. Shapiro, “Quasi-monochromatic bound on ultrashort light-pulse transmission through fog,” Opt. Lett. 36, 3356-3358 (2011).
  91. D. Venkatraman, N.D. Hardy, F.N.C. Wong, J.H. Shapiro, “Classical far-field phase-sensitive ghost imaging,” Opt. Lett. 36, 3684-3686 (2011).
  92. J.H.  Shapiro, “Scintillation has minimal impact on far-field Bennett-Brassard 1984 protocol quantum key distribution,” Phys. Rev. A84, 032340 (2011).
  93. N.D. Hardy, J.H. Shapiro, “Reflective ghost imaging through turbulence,” Phys. Rev. A 84, 063824 (2011).
  94. D. Venkatraman, N. Hardy, F.N.C. Wong, J.H. Shapiro, “Experimental Implementation of Classical Far-Field Phase-Sensitive Ghost Imaging,” IEEE Conference on CLEO (2011).
  95. M. Tengner, T. Zhong, F.N.C. Wong, J.H. Shapiro, “Two-way Secure Communication Using Quantum Illumination,” IEEE Conference on CLEO (2011).
  96. S. Mouradian, F.N.C. Wong, J. H. Shapiro, “Achieving Sub-Rayleigh Resolution via Thresholding,” IEEE Conference on CLEO (2011).
  97. B. Erkmen, N.D. Hardy, D. Venkatraman, F.N.C. Wong, J.H. Shapiro, “Phase-Sensitive Coherence and the Classical-Quantum Boundary in Ghost Imaging,” SPIE 8122, 893151 (2011).
  98. F. Guerrieri, L. Maccone, F.N.C. Wong, J.H. Shapiro, S. Tisa, F. Zappa, “Imaging Beyond the Rayleigh Bound,” AIP Conference Proceedings 1363, 3630161 (2011).
  99. S. Mouradian, F.N.C. Wong, J.H. Shapiro, “Achieving sub-Rayleigh resolution via thresholding,” Optics Express 19, 5480-5488 (2011).
  100. D. Venkatraman, N.D. Hardy, F.N.C. Wong, J.H. Shapiro, “Classical far-field phase-sensitive ghost imaging,” Opt. Lett. 36, 3684-3686 (2011).
  101. A. Kirmani, A. Colaco, F.N.C. Wong, V.K. Goyal, “Exploiting sparsity in time-of-flight range acquisition using a single time-resolved sensor,” Optics Express 19, 21485-21507 (2011).
  102. M.C. Teich, B.E.A. Saleh, F.N.C. Wong, J.H. Shapiro, “Variations on the theme of quantum optical coherence tomography: a review,” Quantum Information Processing 11, 903-923 (2012).
  103. T. Zhong, F.N.C. Wong, A. Restelli, J.C. Bienfang, “Efficient single-spatial-mode periodically-poled KTiOPO4 waveguide source for high-dimensional entanglement-based quantum key distribution,” Optics Express 20, 26868-26877 (2012).
  104. R. Garcia-Patron, C. Navarrete-Benlloch, S. Lloyd, J.H. Shapiro, N.J. Cerf, “Majorization Theory Approach to the Gaussian Channel Minimum Entropy Conjecture,” Phys. Rev. Lett. 108, 110505 (2012).
  105. C. Weedbrook, S. Pirandola, R. Garcia-Patron, N.J. Cerf, T.C. Ralph, J.H. Shapiro, S. Lloyd, “Gaussian quantum information,” Reviews of Modern Physics 84, 621-669 (2012).
  106. J.H.  Shapiro, E. Lantz, “Comment on “Observation of anticorrelation in incoherent thermal light fields”,” Phys. Rev. A 85, 057801 (2012).
  107. J.H. Shapiro, “Comment on ‘Simulation of Bell states with incoherent thermal light’,” New Journal of Physics 14, 058003 (2012).
  108. C. Navarrete-Benlloch, R. Garcia-Patron, J.H. Shapiro, N.J. Cerf, “Enhancing quantum entanglement by photon addition and subtraction,” Phys. Rev. A 86, 012328 (2012).
  109. J.H. Shapiro, R.W. Boyd, “Response to “The physics of ghost imaging-nonlocal interference or local intensity fluctuation correlation?”,” Quantum Information Processing 11, 1003-1011 (2012).
  110. J.H. Shapiro, R.W. Boyd, “The physics of ghost imaging,” Quantum Information Processing 11, 949-993 (2012).
  111. M.C. Teich, B.E.A. Saleh, F.N.C. Wong, J.H. Shapiro, “Variations on the theme of quantum optical coherence tomography: a review,” Quantum Information Processing 11, 903-923 (2012).http://www.rle.mit.edu/qoptics/wp-admin/post.php?post=15&action=edit&message=1
  112. R. Nair, B.J. Yen, S. Guha, J.H. Shapiro, S. Pirandola, “Symmetric M-ary phase discrimination using quantum-optical probe states,” Phys. Rev. A 86, 022306 (2012).
  113. R.R. Parenti, J.M. Roth, J.H. Shapiro, F.G. Walther, J.A. Greco, “Experimental observations of channel reciprocity in single-mode free-space optical links,” Optics Express 20, 21635-21644 (2012).
  114. J.H. Shapiro, A.L. Puryear, “Reciprocity-Enhanced Optical Communication Through Atmospheric Turbulence-Part I: Reciprocity Proofs and Far-Field Power Transfer Optimization,” Journal of Optical Communications and Networking 4, 947-954 (2012).
  115. N.D. Hardy, J.H. Shapiro, “Computational ghost imaging versus imaging laser radar for three-dimensional imaging,” Phys Rev. A 87, 023820 (2013).
  116. P.B. Dixon, J.H. Shapiro, F.N.C. Wong, “Spectral engineering by Gaussian phase-matching for quantum photonics,” Optics Express 21, 5879-5890 (2013).
  117. C. Chudzicki, I.L. Chuang, J.H. Shapiro, “Deterministic and cascadable conditional phase gate for photonic qubits,” Phys. Rev. A 87, 042325 (2013).
  118. J.H. Shapiro, D. Venkatraman, F.N.C. Wong, “Ghost Imaging without Discord,” Science Reports 3, 1849 (2013).
  119. S. Guha, J.H. Shapiro, “Reading boundless error-free bits using a single photon,” Phys. Rev. A 87, 062306 (2013).
  120. P.B. Dixon, J.H. Shapiro, F.N.C. Wong, “Spectral engineering by Gaussian phase-matching for quantum photonics,” Optics Express 21, 5879-589 (2013).
  121. J.H. Shapiro, D. Venkatraman, F.N.C. Wong, “Ghost Imaging without Discord,” Scientific Reports 3, 1849 (2013).
  122. J. Mower, Z,S, Zhang, P. Desjardins, C. Lee, J.H. Shapiro, D. Englund, “High-dimensional quantum key distribution using dispersive optics,” Phys Rev. A 87, 062322 (2013).
  123. Z.S. Zhang, M. Tengner, T. Zhong, F.N.C. Wong, J.H. Shapiro, “Entanglement’s Benefit Survives an Entanglement-Breaking Channel,” Phys. Rev. Lett. 111, 010501 (2013).
  124. A.L. Puryear, J.H. Shapiro, R.R. Parenti, “Reciprocity-Enhanced Optical Communication Through Atmospheric Turbulence-Part II: Communication Architectures and Performance,” Journal of Optical Communications and Networking 5, 888-900 (2013).
  125. V. Giovannetti, S. Lloyd, L. Maccone, J.H. Shapiro, “Electromagnetic channel capacity for practical purposes,” Nature Photonics 7, 834-838 (2013).
  126. A. Kirmani, D. Venkatraman, D. Shin, A. Colaco, F.N.C. Wong, J.H. Shapiro, V.K. Goyal, “First-Photon Imaging,” SCIENCE 343, 58-61 (2014).
  127. S. Guha, P. Hayden, H. Krovi, S. Lloyd, C. Lupo, J.H. Shapiro, M. Takeoka, M.M. Wilde, “Quantum Enigma Machines and the Locking Capacity of a Quantum Channel,” Phys. Rev. X 4, 011016 (2014).
  128. N. Chandrasekaran, J.H. Shapiro, L.G. Wang, “Photon Information Efficient Communication Through Atmospheric Turbulence-Part II: Bounds on Ergodic Classical and Private Capacities,” Journal of Lightwave Technology  32, 1088-1097 (2014).
  129. N. Chandrasekaran, J.H. Shapiro, “Photon Information Efficient Communication Through Atmospheric Turbulence-Part I: Channel Model and Propagation Statistics,” Journal of Lightwave Technology 32, 1075-1087 (2014).