Papers

  1. “When deep denoising meets iterative phase retrieval”
    Yaotian Wang, Xiaohang Sun, and Jason W. Fleischer, International Conference on Machine Learning 2020, 5838

  2. “Dynamics of the Berezinskii-Kosterlitz-Thouless transition in a photon fluid”
    Guohai Situ and Jason W. Fleischer, Nature Photonics 14, 517 (2020)

  3. “Quantum image distillation”
    Hugo Defienne, Matthew Reichert, Jason W. Fleischer, and Daniele Falso, Science Advances, 18 Oct (2019)

  4. “Nonlinear imaging using object-dependent illumination”
    Jen-Tang Lu, Alexandre S. Goy, and Jason W. Fleischer, Scientific Reports 9, 725 (2019)

  5. “High-resolution light-field imaging via phase space retrieval”
    Chieng-Hung Lu, Stefan Muenzel, and Jason W. Fleischer, Applied Optics 58, A142 (2019)

  6. “Adaptive quantum optics with spatially entangled photon pairs”
    Hugo Defienne, Matthew Reichert, and Jason W. Fleischer, Scientific Reports 8, 7925 (2018)

  7. “Massively parallel coincidence counting of high-dimensional entangled states”
    Matthew Reichert, Hugo Defienne, and Jason W. Fleischer, Physical Review Letters 121, 223601 (2018)

  8. “General model of photon-pair detection with an image sensor”
    Hugo Defienne, Matthew Reichert, and Jason W. Fleischer, Physical Review Letters 120, 203604 (2018)

  9. “Optimizing the signal-to-noise ratio of biphoton distribution measurements”
    Matthew Reichert, Xiaohang Sun, and Jason W. Fleischer, Physical Review A 98, 013841 (2018)

  10. “Quality of spatial entanglement propagation”
    Matthew Reichert, Xiaohang Sun, and Jason W. Fleischer, Physical Review A 95, 063836 (2017)

  11. “Biphoton transmission through non-unitary objects (invited)”
    Matthew Reichert, Hugo Defienne, Xiaohang Sun, and Jason W. Fleischer, Journal of Optics 19, 044004 (2017)

  12. “Making sensing of incoherence”
     Jason Fleischer, Nature Photonics 10, 211 (2016)

  13. “Enhanced phase retrieval using nonlinear dynamics”
     Jen-Tang Lu, Lu Chien-Hung, and Jason W. Fleischer, Optics Express 24, 25091 (2016)

  14. “Resolution enhancement in nonlinear photoacoustic imaging”
    Alexandre S. Goy and Jason W. Fleischer, Applied Physics Letters107, 211102 (2015).

  15. “A model of anisotropic nonlinearity in self-defocusing photorefractive media”
    Christopher Barsi and Jason W. Fleischer, Optics Express 23, 24426 (2015).

  16. “Electrochemical-Acoustic Time of Flight: In Operando Correlation of Physical Dynamics with Battery Charge and Health”
    Andrew G. Hsieh, Shoham Bhadra, Benjamin J. Hertzberg, Peter J. Gjeltema, Alexandre S. Goy, Jason W. Fleischer and Daniel A. Steingart, Energy and Environmental Science 8, 1569 (2015).

  17. “Linear and nonlinear light localization through scattering media”
    Jacob T. Lapenna and Jason W. Fleischer, Applied Optics 54, 184 (2015)

  18. “Phase-space measurement for depth-resolved memory-effect imaging”
    Kevin T. Takasaki and Jason W. Fleischer, Optics Express 22, 31426 (2014).

  19. “Flow-scanning optical tomography”
     Nicolas C. Pegard, Martin L. Toth, Monica Driscoll, and Jason W. Fleischer, Lab on a Chip 14, 4447 (2014).

  20. “Nonlinear Abbe theory”
    Christopher Barsi and Jason W. Fleischer, Nature Photonics 7, 639 (2013).

  21. “Three-dimensional microfluidic microscopy using a tilted channel”
    Nicolas Pegard and Jason W. Fleischer, Journal of Biomedical Optics 18, 040503 (2013).

  22. “Flow-based structured illumination”
    Chien-Hung Lu, Nicolas Pegard, and Jason W. Fleischer, Applied Physics Letters 102, 161115 (2013).

  23. “Phase retrieval using nonlinear diversity”
    Chien-Hung Lu, Christopher Barsi, Matthew O. Williams, J. Nathan Kutz, and Jason W. Fleischer, Applied Optics 52, D92 (2013).

  24. “Enhancing layered 3D displays with a lens”
    Stefan Muenzel and Jason W. Fleischer, Applied Optics 52, D97 (2013).

  25. “Achieving robust Weyl points”
    Jason W. Fleischer, Nature Photonics 7, 268 (2013).

  26. “Jet-like tunneling from a trapped vortex”
    Eyal Cohen, Stefan Muenzel, Oleg Farberovich, Jason W. Fleischer, Victor Fleurov, and Avy Soffer, Physical Review A 88, 043833 (2013).

  27. “Quantitative amplification of weak images by nonlinear propagation”
    Laura Waller, Dmitry V. Dylov, and Jason W. Fleischer, Optics Letters 38, 82 (2013).

  28. “Phase-space measurement and coherence synthesis of optical beams”
    Laura Waller, Guohai Situ, and Jason W. Fleischer, Nature Photonics 6, 474 (2012).

  29. “Observation of the kinetic condensation of classical waves”
    Can Sun, Shu Jia, Christopher Barsi, Sergio Rica, Antonio Picozzi, and Jason W. Fleischer, Nature Physics 8, 471 (2012).

  30. “Wrinkles and deep folds as photonic structures in photovoltaics”
    Jong Bok Kim, Pilnam Kim, Nicolas C. Pegards, Soong Ju Oh, Cherie R. Kagan, Jason W. Fleischer, Howard A. Stone, and Yueh-Lin Loo, Nature Photonics 6, 327 (2012).

  31. “Spectral dynamics of spatially incoherent modulation instability”
    Can Sun, Laura Waller, Dmitry V. Dylov, and Jason W. Fleischer, Physical Review Letters 108, 263902 (2012).

  32. “Rayleigh-Taylor instability in nonlinear Schrodinger flow” (Invited)
    Shu Jia, Mikko Haataja, and Jason W. Fleischer, New Journal of Physics 14, 075009 (2012).

  33. “Nonlinear restoration of diffused images via seeded instability” (Invited)
    Laura Waller, Dmitry V. Dylov, and Jason W. Fleischer, IEEE Journal of Quantum Electronics 18, 916 (2012).

  34. “Instability-driven recovery of diffused images”
    Dmitry V. Dylov, Laura Waller, and Jason W. Fleischer, Optics Letters 36, 3711 (2011).

  35. “Optimizing holographic data storage using fractional Fourier transforms”
    Nicolas C. Pégard and Jason W. Fleischer, Optics Letters 36, 2551 (2011).

  36. "Nonlinear self-filtering of noisy images via dynamical stochastic resonance”
    Dmitry V. Dylov and Jason W. Fleischer, Nature Photonics 4, 323 (2010).

  37. "Wave tunneling and hysteresis in nonlinear junctions”
    Wenjie Wan, Stefan Muenzel, and Jason W. Fleischer, Physical Review Letters 104, 073903 (2010).

  38. "Diffusion-trapped Airy beams in photorefractive media”
    Shu Jia, Joyce Lee, Georgios Siviloglou, Demetrios N. Christodoulides, and Jason W. Fleischer, Physical Review Letters 104, 253904 (2010).

  39. "Modulation instability of a coherent-incoherent mixture”
    Dmitry V. Dylov and Jason W. Fleischer, Optics Letters 35, 2149 (2010).

  40. "Nonlinear light propagation in fractal waveguide arrays”
    Shu Jia and Jason W. Fleischer, Optics Express 18, 14490 (2010).

  41. "Diffraction from an edge in a self-focusing medium”
    Wenjie Wan, Dmitry V. Dylov, Christopher Barsi, and Jason W. Fleischer, Optics Letters 35, 2819 (2010).

  42. “Imaging through nonlinear media using digital holography”
    Christopher Barsi, Wenjie Wan, and Jason W. Fleischer, Nature Photonics 3, 211 (2009).

  43. “Digital reconstruction of optically-induced potentials”
    Christopher Barsi and Jason W. Fleischer, Optics Express 17, 23338 (2009).

  44. "Spectral dynamics of spatially incoherent bump-on-tail instability”
    Dmitry V. Dylov and Jason W. Fleischer, Optics Letters 34, 2673 (2009).

  45. "Nonlinear focusing and defocusing of partially coherent spatial beams”
    Can Sun, Dmitry V. Dylov, and Jason W. Fleischer, Optics Letters 34, 3003 (2009).

  46. “Nonlinear light propagation in rotating waveguide arrays”
    Shu Jia and Jason W. Fleischer, Physical Review A 79, 041804 (2009).

  47. “Observation of all-optical bump-on-tail instability”
    Dmitry V. Dylov and Jason W. Fleischer, Physical Review Letters 100, 103903 (2008).

  48. “Multiple-stream instabilities and soliton turbulence in photonic plasma”
    Dmitry V. Dylov and Jason W. Fleischer, Physical Review A 78, 061804R (2008).

  49. “Peakon profiles and collapse-bounce cycles in self-focusing spatial beams”
    Can Sun, Christopher Barsi, and Jason W. Fleischer, Optics Express 16, 20676 (2008).

  50. “Dispersive, superfluid-like shock waves in nonlinear optics"
    Wenjie Wan, Shu Jia, and Jason W. Fleischer, Nature Physics 3, 46 (2007).

  51. “Dispersive shock waves in nonlinear arrays”
    Shu Jia, Wenjie Wan, and Jason W. Fleischer, Physical Review Letters 99, 223901 (2007).

  52. “Phason dynamics in nonlinear photonic quasicrystals”
    Barak Freedman, Ron Lifshitz, Jason W. Fleischer, and Mordechai Segev, Nature Materials 6, 776 (2007).

  53. “Dispersive shock waves with nonlocal nonlinearity”
    Christopher Barsi, Wenjie Wan, Can Sun, and Jason W. Fleischer, Optics Letters 32, 2930 (2007).

  54. “Forward four-wave mixing with defocusing nonlinearity"
    Shu Jia, Wenjie Wan, and Jason W. Fleischer, Optics Letters 32, 1668 (2007).

  55. “Observation of temporal vector soliton propagation and collision in birefringent fiber”
    Darren Rand, Ivan Glesk, Camille Sophie Brès, Daniel A. Nolan, Xin Chen, Joohyun Koh, Jason W. Fleischer, Ken Steiglitz, and Paul R. Prucnal, Physical Review Letters 98, 053902 (2007).

  56. “Wave and defect dynamics in nonlinear photonic quasicrystals”
    Barak Freedman, Guy Bartal, Mordechai Segev, Ron Lifshitz, Demetrios N. Christodoulides, and Jason W. Fleischer, Nature 440, 1166 (2006).

  57. “Incoherent white-light solitons in nonlinear periodic lattices”
    R. Pezer, H. Buljan, G. Bartal, M. Segev, and Jason W. Fleischer, Physical Review E 73, 056608 (2006).

  58. “Incoherent solitons in instantaneous nonlocal nonlinear media”
    Oren Cohen, Hrvoje Buljan, Tal Schwartz, Jason W. Fleischer, and Mordechai Segev. Physical Review E 73, 015601 (2006).

  59. “Observation of random-phase gap solitons in photonics lattices”
    Guy Bartal, Oren Cohen, Ofer Manela, Mordechai Segev, Jason W. Fleischer, Robert Pezer, and Hrvoje Buljan, Optics Letters 31, 483 (2006).

  60. “Observation of random-phase lattice solitons”
    Oren Cohen, Guy Bartal, Hrvoje Buljan, Tal Carmon, Jason W. Fleischer, Mordechai Segev, and Demetrios Christodoulides, Nature 433, 500 (2005).

  61. “Gap random-phase lattice solitons”
    Robert Pezer, Hrvoje Buljan, Jason W. Fleischer, Guy Bartal, Oren Cohen, and Mordechai Segev, Optics Express 13, 5013 (2005).

  62. “Observation of Second-band vortex solitons in 2D photonic lattices"
    Guy Bartal, Ofer Manela, Oren Cohen, Jason W. Fleischer, and Mordechai Segev. Physical Review Letters 95, 053904 (2005).

  63. “Spatial photonics in nonlinear waveguide arrays” [invited review article]
    Jason W. Fleischer, Guy Bartal, Oren Cohen, Tal Schwartz, Ofer Manela, Barak Freedman, Mordechai Segev, Hrvoje Buljan, and Nikolaos K. Efremidis, Optics Express, 13, 1780 (2005).

  64. “Grating-Mediated Waveguiding and Holographic Solitons"
    Barak Freedman, Oren Cohen, Ofer Manela, Mordechai Segev, Jason W. Fleischer, and Demetrios N. Christodoulides.  Journal of Optical Society of America B 22, 1349 (2005)

  65. “Partially coherent waves in nonlinear periodic lattices"
    Hrvoje Buljan, Guy Bartal, Oren Cohen, Tal Schwartz, Ofer Manela, Tal Carmon, Mordechai Segev, Jason W. Fleischer, and Demetrios N. Christodoulides, Studies in Applied Mathematics 115, 173 (2005).

  66. “Brillouin-zone spectroscopy of nonlinear photonic lattices”
    Guy Bartal, Oren Cohen, Hrvoje Buljan, Jason W. Fleischer, Ofer Manela, and Mordechai Segev, Physical Review Letters 94, 163902 (2005).

  67. “Observation of vortex-ring 'discrete' solitons in 2D photonic lattices [cover article]”
    Jason W. Fleischer, Guy Bartal, Oren Cohen, Ofer Manela, Mordechai Segev, Jared Hudock, and Demetrios N. Christodoulides, Physical Review Letters 92, 123904 (2004). 

  68. “Pattern formation in a ring cavity with temporally incoherent feedback”
    Tal Schwartz, Jason W. Fleischer, Oren Cohen, Hrvoje Buljan, and Mordechai Segev, Journal of the Optical Society of America B 12, 2197 (2004).

  69. “Grating-mediated waveguiding”
    Oren Cohen, Barak Freedman, Jason W. Fleischer, Mordechai Segev, and Demetrios N. Christodoulides, Physical Review Letters 93, 103902 (2004).

  70. “Two-dimensional higher-band vortex lattice solitons”
    Ofer Manela, Oren Cohen, Guy Bartal, Jason W. Fleischer, and Mordechai Segev, Optics Letters 29, 2049 (2004).

  71. “Random-phase solitons in nonlinear photonic lattices”
    Hrvoje Buljan, Oren Cohen, Jason W. Fleischer, Tal Schwartz, Mordechai Segev, Ziad Musslimani, Nikolaos K. Efremidis, and Demetrios N. Christodoulides, Physical Review Letters 92, 223901 (2004).

  72. “Two-dimensional optical lattice solitons”
    Nikolaos K. Efremidis, Jared Hudok, Demetrios N. Christodoulides, Jason W. Fleischer, Oren Cohen, and Mordechai Segev, Physical Review Letters 91, 213906, (2003).

  73. “Multiband vector lattice solitons” 
    Oren Cohen, Tal Schwartz, Jason W. Fleischer, Mordechai Segev, and Demetrios N. Christodoulides, Physical Review Letters 91, 113901, (2003).

  74. “Observation of two-dimensional discrete solitons in optically induced nonlinear photonic lattices”
    Jason W. Fleischer, Moredechai Segev, Nikolaos K. Efremidis, and Demetrios N. Christodoulides, Nature 422, 147 (2003).

  75. “Observation of Discrete Solitons in Optically-induced Real-time Waveguide Arrays”
    Jason W. Fleischer, Tal Carmon, Mordechai Segev, Nikolaos K. Efremidis, and Demetrios N. Christodoulides, Physical Review Letters 90, 023902 (2003).

  76. “Discrete Solitons in Photorefractive Optically-induced Photonic Lattices”
    Nikolaos K. Efremidis, Suzanne Sears, Demetrios N. Christodoulides, Jason W. Fleischer, and Mordechai Segev, Physical Review E 66, 046602 (2002).

  77. “Collisions between Optical Spatial Solitons Propagating in Opposite Directions”
    Oren Cohen, Raam Uzdin, Tal Carmon, Jason W. Fleischer, Mordechai Segev, and Serguey Odoulov, Physical Review Letters 89, 133901 (2002).

  78. “Information Transfer through Cascaded Collisions of Vector Solitons”
    Charalambos Anastassiou, Jason W. Fleischer, Tal Carmon, Mordechai Segev, and Ken Steiglitz, Optics Letters 26, 1498 (2001).

  79. “Instantons and Intermittency in 1-D MHD Burgerlence”
    Jason W. Fleischer and Patrick H. Diamond, Physics Letters A 283, 237 (2001).

  80. “Burgers' Turbulence with Self-Consistently Evolved Pressure”               
    Jason W. Fleischer and Patrick H. Diamond, Physical Review E 61, 3912 (2000).

  81. “Compressible Turbulence in One Dimension”
    Jason W. Fleischer and Patrick H. Diamond, Physics Letters A 249, 83 (1998).

  82. “Compressible Alfvèn Turbulence in One Dimension”
    Jason W. Fleischer and Patrick H. Diamond, Physical Review E 58, R2709 (1998).

Book chapters

  1. N. Pegard, C.-H. Lu, M.L. Toth, M. Driscoll, and J.W. Fleischer, “Flow-scanning microfluidic imaging,” in Advances in Microfluidics, ed. Xiao-Ying Yu, Springer (2012).

  2. W. Wan, S. Jia, C. Barsi, and J.W. Fleischer, “Dispersive shock waves in spatial optics,” in Nonlinear Photonics and Novel Optical Phenomena, eds. R. Morandotti and Z. Chen, Springer (2012).

  3. D.V. Dylov and J.W. Fleischer, “Turbulence in spatially-incoherent light,” in Localized States in Physics: Solitons and Patterns, eds. O. Descalzi and M.G. Clerc, Springer (2010).

  4. N.K. Efrimidis, J.W. Fleischer, G. Bartal, O. Cohen, H. Buljan, D.N. Christodoulides, and M. Segev, “Introduction to solitons in photonic lattices,” Nonlinearities in Periodic Structures and Metamaterials,  eds. C. Denz, S. Flach, and Y.S. Kivshar, Springer (2009).

© 2019 The Trustees of Princeton University