{"id":19,"date":"2012-11-15T18:05:01","date_gmt":"2012-11-15T18:05:01","guid":{"rendered":"http:\/\/pages.charlotte.edu\/greg-gbur\/?page_id=19"},"modified":"2024-02-14T17:40:55","modified_gmt":"2024-02-14T17:40:55","slug":"publications","status":"publish","type":"page","link":"https:\/\/pages.charlotte.edu\/greg-gbur\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"

On this page is my complete, up-to-date publication list, with links to publications where possible. To see the complete publication list in pdf form, click\u00a0here<\/a>.<\/p>\n

For those interested in downloading a copy of my thesis, “Nonradiating Sources and the Inverse Source Problem”, click\u00a0here<\/a>.<\/p>\n

Some time back, a description of my research group’s work on singular optics with polychromatic light was published (unbeknownst to us) in a Russian science magazine. A pdf version of the article can be viewed\u00a0here<\/a>. For an English description of this research, see paper\u00a022<\/a>. To see an article about the experimental confirmation of this research, click\u00a0here<\/a>.<\/p>\n

Some of my work on partially coherent beams propagating through turbulence has been verified experimentally. To see an article about this, click\u00a0here<\/a>.<\/p>\n

Work I did with Professors Wolf and Agarwal on the coherence properties of sunlight was described in the scientific press at\u00a0Physics News Update<\/a>\u00a0and\u00a0Astronomy<\/a>. I have pdf versions of the pages\u00a0here<\/a>\u00a0and\u00a0here<\/a>.<\/p>\n

Work I did with my collaborators in Amsterdam on plasmons and Young’s interference experiment was described in Physics World (though I am not mentioned by name). See the article\u00a0here<\/a>.<\/p>\n

In recent years,\u00a0the idea of dielectric invisibility devices has become quite popular with the media. Thanks to my thesis work on ‘invisible objects,’ I was asked to comment on these recent results. Comments appeared in\u00a0Science Magazine<\/a>,\u00a0PhysOrg.com<\/a>,\u00a0The News & Observer<\/a>, and even\u00a0USA Today<\/a>.<\/p>\n

My proceedings paper for my invited talk at Photonics West 2007 is\u00a0here<\/a>.<\/p>\n

Popular Science Articles:<\/strong><\/p>\n

    \n
  1. G. Gbur, \u201cVisions of Invisibility in Fiction,\u201d Optics and Photonics News (July\/August 2011), 16-17.<\/strong><\/li>\n
  2. G. Gbur, \u201cLes p\u00e9r\u00e9grinations d\u2019un escroc scientfiique,\u201d La Recherche 458 (December 2011), 58-60.<\/li>\n
  3. G. Gbur, “Arago’s Inadvertent Test of Relativity,” Optics and Photonics News (May 2012), 18-19.<\/li>\n
  4. G. Gbur, \u201cThe Secret Molecular Life of Soap Films,\u201d Optics and Photonics News (July\/August 2013), 18-20.<\/li>\n
  5. G. Gbur, \u201cRobertson: l\u2019homme au nom de la science,\u201d La Recherche 475 (May 2013), 60-62.\u00a0<\/strong><\/li>\n
  6. G. Gbur, \u201cJames Jeans\u2019 Almost-Atomic Theory,\u201d Optics and Photonics News (November 2013), 20-22.<\/li>\n
  7. G. Gbur, \u201cMaking Magnets Speak: the Barkhausen effect,\u201d Open Lab 2013.<\/li>\n
  8. G. Gbur, \u201cLe myst\u00e8re des chats qui retombent toujours sur leurs pattes,\u00a0\u00bb La Recherche 487, (Mai 2014), 54-58.<\/li>\n
  9. G. Gbur, “A Protective Cloak Against Earthquakes and Storms,” American Scientist 103 (2015), 356-359.<\/li>\n
  10. G. Gbur, “Blogging on the tenure track,” in Science Blogging: The Essential Guide<\/em>, C. Wilcox, B. Brookshire, G. Goldman, eds. (Yale University Press, 2016).<\/li>\n<\/ol>\n
    Peer Reviewed Publications:<\/strong><\/span><\/span><\/div>\n
    \n\n\n\n\n
    \n

    1. G. Gbur and E. Wolf, “Sources of arbitrary states of coherence that generate completely coherent fields outside the source”, Opt. Lett. 22 (1997), 943.<\/a><\/p>\n

    2. G. Gbur and P.S. Carney, “Convergence criteria and optimization techniques for beam moments”, Pure Appl. Opt. 7 (1998), 1221.<\/a><\/p>\n

    3. M. Berry, J.T. Foley, G. Gbur and E. Wolf, “Nonpropagating string excitations”, Am. J. Phys. 66(2) (1998), 121.<\/a><\/p>\n

    4. G. Gbur and E. Wolf, “Phase conjugation with random fields and with deterministic and random scatterers”, Opt. Lett. 24 (1999), 10.<\/a><\/p>\n

    5. G. Gbur, D. James, and E. Wolf, “Energy conservation law for randomly fluctuating electromagnetic fields”, Phys. Rev. E 59 (1999), 4594.<\/a><\/p>\n

    6. G. Gbur and K. Kim, “The quasi-homogeneous approximation for a class of three-dimensional primary sources”, Opt. Commun. 163 (1999), 20<\/a>;\u00a0erratum, Opt. Commun. 167 (1999), 311<\/a>.<\/p>\n

    7. P.S. Carney and G. Gbur, “Optimal apodizations for finite apertures”, J. Opt. Soc. Am. A 16 (1999), 1638.<\/a><\/p>\n

    8. G. Gbur and E. Wolf, “Determination of density correlation functions from scattering of polychromatic light”, Opt. Commun. 168 (1999), 39.<\/a><\/p>\n

    9. G. Gbur, J.T. Foley and E. Wolf, “Nonpropagating string excitations – finite length and damped strings”, Wave Motion 30 (1999), 125.<\/a><\/p>\n

    10. G. Gbur and D.F.V. James, “Unpolarized sources that generate highly polarized fields outside the source”, J. Mod. Opt. 47 (2000), 1171.<\/a><\/p>\n

    11. G. Gbur, “Uniqueness of the solution to the inverse source problem for quasi-homogeneous sources”, Opt. Commun. 187 (2001), 301.<\/a><\/p>\n

    12. G. Gbur and E. Wolf, “The Rayleigh range of Gaussian Schell-model beams”, J. Mod. Opt. 48 (2001), 1735.<\/a><\/p>\n

    13. G. Gbur and E. Wolf, “Relation between computed tomography and diffraction tomography”, J. Opt. Soc. Am. A 18 (2001), 2132.<\/a><\/p>\n

    14. G. Gbur and E. Wolf, “The Rayleigh range of partially coherent beams”, Opt. Commun. 199 (2001), 295.<\/a><\/p>\n

    15. G. Gbur, T.D. Visser and E. Wolf, “Anomalous behavior of spectra near phase singularities of focused waves”, Phys. Rev. Lett. 88 (2002), 013901.<\/a><\/p>\n

    16. G. Gbur and E. Wolf, “Spreading of partially coherent beams in random media”, J. Opt. Soc. Am. A 19 (2002), 1592.<\/a><\/p>\n

    17. G. Gbur, T.D. Visser and E. Wolf, “Singular behavior of the spectrum in the neighborhood of focus”, J. Opt. Soc. Am. A 19 (2002), 1694.<\/a><\/p>\n

    18. E. Wolf and G. Gbur, “Determination of the scattering amplitude and of the extinction cross-section from measurements at arbitrary distances from the scatterer”, Phys. Lett. A 302 (2002), 225.<\/a><\/p>\n

    19. T.D. Visser, G. Gbur and E. Wolf, “Effect of the state of coherence on the three-dimensional spectral intensity distribution near focus”, Opt. Commun. 213 (2002), 13.<\/a><\/p>\n

    20. G. Gbur and E. Wolf, “Diffraction tomography without phase information”, Opt. Lett. 27 (2002), 1890.<\/a><\/p>\n

    21. G. Gbur and E. Wolf, “Hybrid diffraction tomography without phase information”, J. Opt. Soc. Am. A 19 (2002), 2194.<\/a><\/p>\n

    22. G. Gbur, T.D. Visser and E. Wolf, \u201cSingular optics with polychromatic light\u201d, Optics & Photonics News, December 2002, p. 55.<\/a><\/p>\n

    23. G. Gbur, “Performing diffraction tomography without phase information”, Proceedings Symposium IEEE\/LEOS Benelux Chapter, 2002, Amsterdam, 151 (non-refereed).<\/a><\/p>\n

    24. H.F. Schouten, T.D. Visser, G. Gbur, D. Lenstra and H. Blok, “Creation and annihilation of phase singularities near a sub-wavelength slit”, Optics Express 11 (2003), 371.<\/a>
    (    movie 1<\/a>,\u00a0movie 2<\/a>)<\/p>\n

    25. H.F. Schouten, G. Gbur, T.D. Visser and E. Wolf, “Phase singularities of the coherence functions in Young\u2019s interference pattern”, Opt. Lett. 28 (2003), 968.<\/a><\/p>\n

    26. G. Gbur and T.D. Visser, “Coherence vortices in partially coherent beams”, Opt. Commun. 222 (2003), 117.<\/a><\/p>\n

    27. G. Gbur, “Nonradiating sources and other ‘invisible’ objects”, in E. Wolf (Ed.), Prog. in Optics, vol. 45 (Elsevier, Amsterdam, 2003), p. 273. (contact me for a copy!)<\/p>\n

    28. G. Gbur and T.D. Visser, “Can spatial coherence effects produce a local minimum of intensity at focus?”, Opt. Lett. 28 (2003), 1627.<\/a><\/p>\n

    29. H.F. Schouten, T.D. Visser, G. Gbur, D. Lenstra and H. Blok, “Phase singularities and enhanced transmission at a subwavelength slit”, Optics & Photonics News, December 2003, p. 23.<\/a><\/p>\n

    30. G.S. Agarwal, G. Gbur and E. Wolf, “Coherence properties of sunlight”, Opt. Lett. 29 (2004), 459.<\/a><\/p>\n

    31. Y. Li, E. Wolf, G. Gbur and T.D. Visser, “Reply to comment: Optimum depth of the information pit on the data surface of a compact disk”, J. Mod. Opt. 51 (2004), 779.<\/a><\/p>\n

    32. G. Gbur and E. Wolf, “The information content of the scattered intensity in diffraction tomography”, Information Sciences 162 (2004), 3.<\/a><\/p>\n

    33. G. Gbur, T.D. Visser and E. Wolf, “‘Hidden’ singularities in partially coherent wavefields”, J. Opt. A 6 (2004), S239.<\/a><\/p>\n

    34. H.F. Schouten, T.D. Visser, G. Gbur, D. Lenstra and H. Blok, “The diffraction of light by narrow slits in plates of different materials”, J. Opt. A 6 (2004), S277.<\/a><\/p>\n

    35. G. Gbur, T.D. Visser and E. Wolf, “Complete destructive interference of partially coherent fields”, Opt. Commun. 239 (2004), 15.<\/a><\/p>\n

    36. D. Shi, M.A. Anastasio, Y. Huang and G. Gbur, “Half-scan and single-plane intensity diffraction tomography for phase objects”, Phys. Med. Biol. 49 (2004), 2733.<\/a><\/p>\n

    37. H.F. Schouten, T.D. Visser, G.Gbur, D. Lenstra and H. Blok, “Connection between phase singularities and the radiation pattern of a slit in a metal plate”, Phys. Rev. Lett. 93 (2004), 173901.<\/a><\/p>\n

    38. G. Gbur, M.A. Anastasio, Y. Huang and D. Shi, “Spherical-wave intensity diffraction tomography”, J. Opt. Soc. Am. A 22 (2005), 230.<\/a><\/p>\n

    39. H.F. Schouten, N. Kuzmin, G. Dubois, T.D. Visser, G. Gbur, P.F.A. Alkemade, H. Blok, G.W. ‘t Hooft, D. Lenstra and E.R. Eliel, “Plasmon-assisted two-slit transmission: Young’s experiment revisited”, Phys. Rev. Lett. 94 (2005), 053901.<\/a><\/p>\n

    40. G. Gbur, H.F. Schouten and T.D. Visser, “Achieving superresolution in near-field optical data readout systems using surface plasmons”, Appl. Phys. Lett. 87 (2005), 191109.<\/a><\/p>\n

    41. M.A. Anastasio, D. Shi, Y. Huang and G. Gbur, “Image reconstruction in spherical-wave intensity diffraction tomography”, J. Opt. Soc. Am. A 22 (2005), 2651.<\/a><\/p>\n

    42. G. Gbur and T.D. Visser, “Phase singularities and coherence vortices in linear optical systems”, Opt. Commun. 259 (2006), 428.<\/a><\/p>\n

    43. C.H. Gan and G. Gbur, “Strategies for employing surface plasmons in near-field optical readout systems”, Opt. Exp. 14 (2006), 2385.<\/a><\/p>\n

    44. M.A. Anastasio, D. Shi and G. Gbur, “Multispectral intensity diffraction tomography reconstruction theory: quasi-nondispersive objects”, J. Opt. Soc. Am. A 23 (2006), 1359.<\/a><\/p>\n

    45. G. Gbur, “Simulating fields of arbitrary spatial and temporal coherence,” Opt. Exp. 14 (2006), 7567.<\/a><\/p>\n

    46. G.S. Agarwal and G. Gbur, “Rotational frequency shifts for electromagnetic fields of arbitrary states of coherence and polarization,” Opt. Lett. 31 (2006), 3080.<\/a><\/p>\n

    47. C.H. Gan, G. Gbur and T.D. Visser, “Surface plasmons modulate the spatial coherence in Young’s interference experiment,” Phys. Rev. Lett. 98 (2007), 043908.<\/a><\/p>\n

    48. N. Kuzmin, G.W. ‘t Hooft, E.R. Eliel, G. Gbur, H.F. Schouten and T.D. Visser, “Enhancement of spatial coherence by surface plasmons,” Opt. Lett. 32 (2007), 445.<\/a><\/p>\n

    49. G. Gbur and O. Korotkova, “Angular spectrum representation for the propagation of arbitrary coherent and partially coherent beams through atmospheric turbulence,” J. Opt. Soc. Am. A 24 (2007), 745.<\/a><\/p>\n

    50. D. M. Karabacak, K.L. Ekinci, C.H. Gan, G.J. Gbur, M.S. \u00dcnl\u00fc, S. B. Ippolito, B. B. Goldberg, and P.S. Carney, “Diffraction of evanescent waves and nanomechanical displacement detection,” Opt. Lett. 32 (2007), 1881.<\/a><\/p>\n

    51. O. Korotkova and G. Gbur, “Angular spectrum representation for propagation of random electromagnetic beams in a turbulent atmosphere,” J. Opt. Soc. Am. A 24 (2007), 2728.<\/a><\/p>\n

    52. C.H. Gan and G. Gbur, “Strategies for employing surface plasmons in a near field transmission optical readout system,” Appl. Phys. Lett. 91 (2007), 131109.<\/a><\/p>\n

    53. C.H. Gan and G. Gbur, “Phase and coherence singularities generated by the interference
    of partially coherent fields,” Opt. Commun. 280 (2007), 249.<\/a><\/p>\n

    54.C.H. Gan, G. Gbur and T.D. Visser, “A New Role for Surface Plasmons,” Optics and Photonics News, December 2007, 36.<\/a><\/p>\n

    55. G. Gbur and R.K. Tyson, “Vortex beam propagation through atmospheric turbulence and topological\u00a0charge conservation,” J. Opt. Soc. Am. A 25 (2008), 225.<\/a><\/p>\n

    56. T. van Dijk, G. Gbur, and T. D. Visser, “Shaping the focal intensity distribution using
    spatial coherence,” J. Opt. Soc. Am. A 25 (2008), 575.<\/a><\/p>\n

    57. G. Gbur and G.A. Swartzlander, Jr., “Complete transverse representation of a correlation singularity of a partially coherent field,” J. Opt. Soc. Am. B 25 (2008), 1422.<\/a><\/p>\n

    58. C.H. Gan and G. Gbur, “Spatial coherence conversion with surface plasmons using a three-slit interferometer,” Plasmonics 3 (2008), 111.<\/a><\/p>\n

    59. Y. Gu and G. Gbur, “Topological reactions of correlation vortices,” Opt. Commun. 282 (2009), 709.<\/a><\/p>\n

    60. D. Moses, C.H. Gan, and G. Gbur, “Directional, nonpropagating, and polychromatic excitations in one-dimensional wave systems,” Phys. Rev. E 79 (2009), 026606.<\/a><\/p>\n

    61. S.M. Kim and G. Gbur, “Momentum conservation in partially coherent wave fields,” Phys. Rev. A 79 (2009), 033844.<\/a><\/p>\n

    62. Y. Gu, O. Korotkova and G. Gbur, “Scintillation of nonuniformly polarized beams in atmospheric turbulence,” Opt. Lett. 34 (2009), 2261.<\/a><\/p>\n

    63. C.H. Gan and G. Gbur, “Extraordinary optical transmission through multi-layered systems of corrugated metallic thin films,” Opt. Exp. 17 (2009), 20553.<\/a><\/p>\n

    64. Y. Gu and G. Gbur, ” Measurement of atmospheric turbulence strength by vortex beam,” Opt. Commun. 283 (2010), 1209.<\/a><\/p>\n

    65. G. Gbur and S.M. Kim, “Magnetization effect in momentum conservation in partially coherent wavefields,” Phys. Rev. A 82 (2010), 043807.<\/a><\/p>\n

    66. Y. Gu and G. Gbur, “Scintillation of Airy beam arrays in atmospheric turbulence,” Opt. Lett. 35 (2010), 3456.<\/a><\/p>\n

    67. Y. Gu and G. Gbur, “Scintillation of pseudo-Bessel correlated beams in atmospheric turbulence,” J. Opt. Soc. Am. A 27 (2010), 2621.<\/a><\/p>\n

    68. G. Gbur and T.D. Visser, “The structure of partially coherent fields”, in E. Wolf (Ed.), Prog. in Optics, vol. 55 (Elsevier, Amsterdam, 2010), p. 285. (contact me for a copy!)<\/p>\n

    69. G. Gbur, “Invisibility physics: Kerker’s ‘invisible bodies'”, in B. Zivkovic, J. Goldman (Eds.),\u00a0The Open Laboratory 2010<\/a>\u00a0(Coturnix, Chapel Hill, 2010), p. 179. (original online post<\/a>)<\/p>\n

    70. X. Pang, G. Gbur and T.D. Visser, “The Gouy phase of Airy beams”, Opt. Lett. 36 (2011), 2492.<\/a><\/p>\n

    71.\u00a0 S. Sahin, G. Gbur and O. Korotkova, \u201cScattering of light from particles with semisoft boundaries,\u201d Opt. Lett. 36 (2011), 3957.<\/a><\/p>\n

    72. C.H. Gan, Y. Gu, T.D. Visser and G. Gbur, “Coherence converting plasmonic hole arrays,” Plasmonics\u00a07 (2012), 313.<\/a><\/p>\n

    73. C. Rosenbury, G. Gbur and Y. Gu, “Phase singularities, correlation singularities, and conditions for complete destructive interference,” J. Opt. Soc. Am. A 29 (2012), 410.<\/a><\/p>\n

    74. Y. Gu and G. Gbur, “Reduction of turbulence-induced scintillation by nonuniformly polarized beam arrays,” Opt. Lett. 37 (2012), 1553.<\/a><\/p>\n

    75.\u00a0S.M. Kim and G. Gbur, \u201cAngular momentum conservation in partially coherent wavefields,\u201d Phys. Rev. A 86 (2012), 043814.<\/a><\/p>\n

    76. G. Gbur, \u201cMpemba\u2019s baffling discovery,\u201d in Best Science Writing Online 2012, J. Ouellette and B. Zivkovic, eds. (Scientific American, New York, 2012), 108.<\/p>\n

    77.\u00a0Y. Gu\u00a0 and G. Gbur, \u201cScintillation of nonuniformly correlated beams in atmospheric turbulence,\u201d Opt. Lett. 38 (2013), 1395.<\/a><\/p>\n

    78. G. Gbur, \u201cInvisibility Physics: Past, Present, and Future,\u201d in E. Wolf (Ed.), Prog. in Optics, vol. 58 (Elsevier, Amsterdam, 2013), p. 65. (contact me for a copy!)<\/p>\n

    79.\u00a0G. Gbur, \u201cPartially coherent beam propagation in atmospheric turbulence [Invited],\u201d J. Opt. Soc. Am. A 31 (2014), 2038.<\/a><\/p>\n

    80. C.S.D. Stahl and G. Gbur, “Complete representation of a correlation singularity\u00a0in a partially coherent beam,\u201d Opt. Lett. 39 (2014), 5985.<\/a><\/p>\n

    81.\u00a0E. Hurwitz and G. Gbur, \u201cNull-field radiationless sources,\u201d Opt. Lett. 39 (2014), 6529.<\/a><\/p>\n

    82.\u00a0G. Gbur, \u201cDesigning directional cloaks from localized fields,\u201d Opt. Lett. 40 (2015), 986.<\/a><\/p>\n

    83. G. Gbur, “Singular Optics,” in The Optics Encyclopedia (Wiley, 2015). (contact me for a copy!)<\/p>\n

    84. X. Pang, G. Gbur and T.D. Visser, “Cycle of phase, coherence and polarization singularities in Young’s three-pinhole experiment,” Opt. Exp. 23 (2015), 34093.<\/a><\/p>\n

    85. G. Gbur, “Fractional vortex Hilbert’s Hotel,” Optica 3 (2016), 222.<\/a><\/p>\n

    86. E. Hurwitz and G. Gbur, “Localized PT-symmetric directionally invisible scatterers,” Phys. Rev. A 93 (2016), 041803.<\/a><\/p>\n

    87. C. Stahl and G. Gbur, “Analytic calculation of vortex diffraction by a triangular aperture,” J. Opt. Soc. Am. A 33 (2016), 1175.<\/a><\/p>\n

    88. M.K. Smith and G.J. Gbur, “Construction of arbitrary vortex and superoscillatory fields,” Opt. Lett. 41 (2016), 4979.<\/a><\/p>\n

    89.\u00a0E. Hurwitz and G. Gbur, \u201cOptically switchable directional invisibility,\u201d Opt. Lett. 42 (2017), 1301.<\/a><\/p>\n

    90. C.S.D. Stahl and G. Gbur, “Partially coherent vortex beams of arbitrary order,” J. Opt. Soc. Am. A 34 (2017), 1793.<\/a><\/p>\n

    91. Y. Wang and G. Gbur, “Hilbert’s Hotel in polarization singularities,” Opt. Lett. 42 (2017), 5154.<\/a><\/p>\n

    92. G. Gbur, “Partially coherent vortex beams,” Proc. SPIE 10549 (2018), 1054903.<\/a><\/p>\n

    93. G. Gbur, “Nonuniqueness in imaging,” Encyclopedia of Modern Optics II, Vol. 3 (2018), 156-163. (contact me for a copy!)<\/p>\n

    94. J. Yu and F. Wang and L. Liu and Y. Cai and G. Gbur, “Propagation properties of Hermite non-uniformly correlated beams in turbulence,” Opt. Exp. 26 (2018), 16333.<\/a><\/p>\n

    95. J. Yu, Y. Cai and G. Gbur, “Rectangular Hermite non-uniformly correlated beams and its propagation properties,” Opt. Exp. 26 (2018), 27894.<\/a><\/p>\n

    96. C.S.D. Stahl and G. Gbur, “Twisted vortex Gaussian Schell-model beams,” J. Opt. Soc. Am. A 35 (2018), 1899.<\/a><\/p>\n

    97. G. Gbur, “Using superoscillations for superresolved imaging and subwavelength focusing,” Nanophotonics 8 (2019), 205.<\/a><\/p>\n

    98. M. Smith and G. Gbur, “Coherence resonances and band gaps in plasmonic hold arrays,” Phys. Rev. A 99 (2019), 023812.<\/a><\/p>\n

    99. J. Yu, Y. Huang, G. Gbur, F. Wang, Y. Cai, “Enhanced backscatter of vortex beams in double-pass optical links with atmospheric turbulence,”\u00a0J. Quant. Spect. 228 (2019), 1.<\/a><\/p>\n

    100. Y. Zhang, Y. Cai and G. Gbur, “Control of orbital angular momentum with partially coherent vortex beams,” Opt. Lett. 44 (2019), 3617.<\/a><\/p>\n

    101. J. Zeng, X. Liu, C. Zhao, F. Wang, G. Gbur and Y. Cai, “Spiral spectrum of a Laguerre-Gaussian beam propagating in anisotropic non-Kolmogorov turbulent atmosphere along horizontal path,” Opt. Exp. 27 (2019) 25342.<\/a><\/p>\n

    102. J. Yu, X. Zhu, F. Wang, D. Wei, G. Gbur and Y. Cai, “Experimental study of reducing beam wander by modulating the coherence structure of structured light beams,” Opt. Lett. 44 (2019), 4371.<\/a><\/p>\n

    103. J. Yu, Y. Huang, F. Wang, X. Liu, G. Gbur and Y. Cai, “Scintillation properties of a partially coherent vector beam with vortex phase in turbulent atmosphere,” Opt. Exp. 27 (2019), 26676.<\/a><\/p>\n

    104. R. Lin, H. Yu, X. Zhu, L. Liu, G. Gbur, Y. Cai, and J. Yu, “The evolution of spectral intensity and orbital angular momentum of twisted Hermite Gaussian Schell model beams in turbulence,” Opt. Express 28<\/b>, 7152-7164 (2020).<\/a><\/p>\n

    \n
    105. M.K. Smith and G. Gbur, “Mathematical method for designing superresolution lenses using superoscillations,” Opt. Lett. <\/span>45<\/b>, 1854-1857 (2020).<\/span><\/a><\/div>\n<\/div>\n
    \n
    106. Y. Zhang, Y. Cai, and G. Gbur, “Partially coherent vortex beams of arbitrary radial order and a van Cittert\u2013Zernike theorem for vortices,” Phys. Rev. A 101 (2020), 043812.<\/a><\/div>\n
    107. X. Zhu, H. Yao, J. Yu, G. Gbur, F. Wang, Y. Chen, and Y. Cai, “Inverse design of a spatial filter in edge enhanced imaging,” Opt. Lett. <\/span>45<\/b>, 2542-2545 (2020).<\/span><\/a><\/div>\n

    108. O. Korotkova and G. Gbur, \u201cApplications of Optical Coherence Theory,\u201d in T.D. Visser (Ed.), Prog. in Optics, vol. 65 (Elsevier, Amsterdam, 2020), p. 43. (contact me for a copy!)<\/span><\/span>\n

    109. Raburn, W. S. and G. Gbur. \u201cSingularities of Partially Polarized Vortex Beams.\u201d Frontiers in Physics (2020).<\/a><\/p>\n

    110. J. Yu, X. Zhu, S. Lin, F. Wang, G. Gbur, and Y. Cai, “Vector partially coherent beams with prescribed non-uniform correlation structure,” Opt. Lett. <\/span>45<\/b>, 3824-3827 (2020).<\/span><\/a><\/p>\n

    111. S. Lin, C. Wang, X. Zhu, R. Lin, F. Wang, G. Gbur, Y. Cai, and J. Yu, “Propagation of radially polarized Hermite non-uniformly correlated beams in a turbulent atmosphere,” Opt. Express 28, 27238-27249 (2020).<\/a><\/p>\n

    112. J. Zeng, C. Liang, H. Wang, F. Wang, C. Zhao, G. Gbur, and Y. Cai, “Partially coherent radially polarized fractional vortex beam,” Opt. Express <\/span>28<\/b>, 11493-11513 (2020).<\/span><\/a><\/p>\n

    113. Y. Zhang, O. Korotkova, Y. Cai, and G. Gbur, “Correlation-induced orbital angular momentum changes,” Phys. Rev. A 102 (2020), 063513.<\/a><\/p>\n<\/div>\n<\/div>\n

    \u00a0<\/div>\n
    114. J. Zeng, H. Zhang, Z. Xu, C. Zhao, Y. Cai, and G. Gbur , “Anomalous multi-ramp fractional vortex beams with arbitrary topological charge jumps”, Applied Physics Letters 117, 241103 (2020).<\/a>\n

    115. O. Korotkova and G. Gbur, “Unified matrix representation for spin and orbital angular momentum in partially coherent beams,” Phys. Rev. A 103 (2021), 023529.<\/a>\u00a0<\/p>\n

    116. J. Fang, C. Zhou, Z. Mou, S. Wang, J. Yu, Y. Yang, G. Gbur, S. Teng, and Y. Cai, “High order plasmonic vortex generation based on spiral nanoslits,” New J. Phys. 23 (2021), 033013.<\/a><\/p>\n

    117. M.V. Berry et al., “A tribute to Marat Soskin,” Journal of Optics 23 (2021), 050201.<\/a><\/p>\n

    118. R. Lin, M. Chen, Y. Liu, H. Zhang, G. Gbur, Y. Cai, and J. Yu, “Measuring refractive indices of a uniaxial crystal by structured light with non-uniform correlation,” Opt. Lett. <\/span>46<\/b>, 2268-2271 (2021).<\/span><\/a><\/p>\n

    119. Olga Korotkova and Greg Gbur, “Jones and Stokes\u2013Mueller analogous calculi for OAM-transforming optics,” Opt. Lett. 46, 2585-2588 (2021).<\/a><\/p>\n

    120. J. Mays and G. Gbur, “Superoscillatory behavior in partially coherent fields,” J. Opt. 23 (2021), 074002.<\/a><\/p>\n

    121. G. Gbur and M. Smith, \u201cControlled Coherence Plasmonic Light Sources,\u201d Photonics 8 (2021), 268.<\/span><\/p>\n<\/div>\n

    \n

    122. R. Lin, J. Wu, Y. Dong, G. Gbur, Y. Cai, and J.Yu, “Second-order statistical properties of conjugate mode \u201cdouble-H\u201d partially coherent beams in turbulence,” Opt. Express 29, 30809-30821 (2021).<\/p>\n

    123. W. Miao and G. Gbur, “Design of Lissajous beams,” Opt. Lett. 47, 297-300 (2022).<\/p>\n

    124. S. Lin, J. Wu, Y. Xu, X. Zhu, G. Gbur, Y. Cai, and J. Yu, “Analysis and experimental demonstration of propagation features of radially polarized specific non-uniformly correlated beams,” Opt. Lett. 47, 305-308 (2022).<\/p>\n

    125. G. Gbur and O. Korotkova, “Orbital angular momentum transformations by non-local linear systems,” Opt. Lett. 47, 321-324 (2022).<\/p>\n

    126. G. Gbur and T.D. Visser, \u201cYoung\u2019s Interference Experiment: Past, Present, and Future,\u201d in T.D. Visser (Ed.), Prog. in Optics, vol. 67 (Elsevier, Amsterdam, 2022), p. 275-343.<\/p>\n

    127. Y. Yuan, X. Xiao, D. Liu, P. Fu, J. Qu, G. Gbur & Y. Cai, \u201cMitigating orbital angular momentum crosstalk in an optical communication uplink channel using cylindrical vector beams,\u201d Waves in Random and Complex Media (2022), 10.1080\/17455030.2022.2053609.<\/p>\n

    128. X. Li, H. Zhang, Y. Gao, G. Gbur, Y. Cai, and Y. Yuan, \u201cMassive parallel sorting of particles using unwound polygonal vortex beams,\u201d Frontiers in Physics 10 (2022), 10.3389\/fphy.2022.877804.<\/p>\n

    129. Song, Haoqian, Zhang, Runzhou, Hu, Nanzhe, Zhou, Huibin, Su, Xinzhou, Song, Hao, Zou, Kaiheng, Pang, Kai, Liu, Cong, Park, Daeyoung, Lynn, Brittany, Gbur, Greg, Dogariu, Aristide, Watkins, Richard J., Miller, Jerome K., Johnson, Eric, Tur, Moshe and Willner, Alan E.. “Dynamic aerosol and dynamic air-water interface curvature effects on a 2-Gbit\/s free-space optical link using orbital-angular-momentum multiplexing” Nanophotonics 11 (2022): 885-895.<\/p>\n

    130. Z. Yang, H. Wang, Y. Chen, F. Wang, G. Gbur, O. Korotkova, and Y. Cai, “Measurement of the coherence-orbital angular momentum matrix of a partially coherent beam,” Opt. Lett. 47 (2022), 4467-4470.<\/p>\n

    131. J. Yu, Y. Xu, S. Lin, X. Zhu, G. Gbur, and Y. Cai, \u201cLongitudinal optical trapping and manipulating Rayleigh particles by spatial nonuniform coherence engineering,\u201d Phys. Rev. A 106 (2022), 033511.<\/p>\n

    132. J. Xu, G. Gbur, and T.D. Visser, “Generalization of Malus\u2019 law and spatial coherence relations for linear polarizers and non-uniform polarizers,” Opt. Lett. 47 (2022), 5739-5742.<\/p>\n

    133. J.D. Schmidt, J.A. Tellez, and G.J. Gbur, “Semi-analytic simulation of optical wave propagation through turbulence,” Appl. Opt. 61 (2022), 9439-9448.<\/p>\n

    134. O. Korotkova, S. Pokharel, and G. Gbur, “Tailoring the coherence\u2013OAM matrices,” Opt. Lett. 47 (2022), 6109-6112.<\/p>\n

    135. R. Qi and G.J. Gbur, “Simplified superoscillatory lenses for super-resolution imaging,” J. Opt. Soc. Am. A 39 (2022), C116-C125.<\/p>\n

    136. G. Gbur, G. Agarwal, M. Alonso, P.S. Carney, A.T. Friberg, P. Knight, J.P. Rolland, and T. Shirai, “100 years of Emil Wolf: introduction,” J. Opt. Soc. Am. A 39 (2022), EW1-EW2.<\/p>\n

    137. Y. Zhang, J. Yu, G. Gbur, O. Korotkova, \u201cEvolution of the orbital angular momentum flux density of partially coherent vortex beams in atmospheric turbulence,\u201d Frontiers in Physics 10 (2022), 10.3389\/fphy.2022.1073662.<\/p>\n

    138. J. Mays and G. Gbur, \u201cPartially coherent superoscillations in the Talbot effect,\u201d J. Phys. A 55 (2022), 504002.<\/p>\n

    139. Z. Zhang, Z. Liu, X. Liu, G. Gbur, C. Liang, Y. Cai and J. Zeng, \u201cMeasuring the orbital angular momentum of a vortex beam under extremely low coherence,\u201d Appl. Phys. Lett. 122 (2023), 011101.<\/p>\n

    140. H. Chang, X. Cai, F. Wang, Y. Zhang, G. Gbur, Y. Cai, and J. Yu, “On z-coherence of Schell-model sources carrying a prescribed astigmatic phase,” Opt. Lett. 48 (2023), 558-561.<\/p>\n

    141. A. Shiri, J. Schmidt, J. Tellez, and G. Gbur, “Modified Huygens\u2013Fresnel method for the propagation of partially coherent beams through turbulence,” J. Opt. Soc. Am. A 40 (2023), 470-478.<\/p>\n

    142. Y. Xu, Y. Guan, Y. Liu, S. Lin, X. Zhu, Y. Cai, J. Yu, and G. Gbur, “Generating multi-focus beams with a spatial non-uniform coherence structure,” Opt. Lett. 48 (2023), 2631-2634 (2023).<\/p>\n

    143. R. Abney and G. Gbur, \u201cNonradiating orbital motions,\u201d Phys. Rev. A 107 (2023), 053517.<\/p>\n

    144. S. Kumar, A. Ghosh, C. Kaushik, A. Shiri, G. Gbur, S. Sharma, G.K. Samanta, \u201cSimple experimental realization of optical Hilbert Hotel using scalar and vector fractional vortex beams,\u201d APL Photonics 8 (2023), 066105.<\/p>\n

    145. J. Mays and G. Gbur, “Angular momentum of vector-twisted-vortex Gaussian Schell-model beams,” J. Opt. Soc. Am. A 40 (2023), 1417-1424.<\/p>\n

    146. H. Song, R. Zhang, H. Zhou, K. Zou, N. Hu, X. Su, H. Song, K. Pang, Y. Duan, D. Park, B. Lynn, G. Gbur, A. Dogariu, R.J. Watkins, J.K. Miller, E. Johnson, M. Tur, A.E. Willner, \u201cInvestigation of the 2-D modal coupling of a Laguerre Gaussian beam through the dynamic air\u2013water interface,\u201d Opt. Commun. 545 (2023), 129689.<\/p>\n

    147. R. Qi and G. Gbur, “Super-resolution imaging system developed from vector superoscillatory field illumination,” Opt. Lett. 48 (2023), 4284-4287.<\/p>\n

    148. W. Miao, Y. Zhang, and G. Gbur, “Deterministic vortices evolving from partially coherent fields,” Optica 10 (2023), 1173-1176.<\/p>\n

    149. Y. Zhang, Y. Cai, and G. Gbur, “Switch of orbital angular momentum flux density of partially coherent vortex beams,” Opt. Express 31 (2023), 38004-38012.<\/p>\n

    150. W. Miao, T.D. Visser, and G. Gbur, “Lissajous singularities in Young\u2019s interference experiment,” Opt. Express 32 (2024), 813-824.<\/p>\n

    151. Greg Gbur, “Visions of invisibility in optics: retrospective,” J. Opt. Soc. Am. A 41 (2024), 435-443.<\/p>\n<\/div>\n

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    <\/p>\n","protected":false},"excerpt":{"rendered":"

    On this page is my complete, up-to-date publication list, with links to publications where possible. To see the complete publication list in pdf form, click\u00a0here. For those interested in downloading a copy of my thesis, “Nonradiating Sources and the Inverse Source Problem”, click\u00a0here. Some time back, a description of my research group’s work on singular […]<\/p>\n","protected":false},"author":680,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"open","template":"","meta":{"jetpack_post_was_ever_published":false,"footnotes":""},"class_list":["post-19","page","type-page","status-publish","hentry"],"jetpack_shortlink":"https:\/\/wp.me\/P2TRYa-j","jetpack_sharing_enabled":true,"_links":{"self":[{"href":"https:\/\/pages.charlotte.edu\/greg-gbur\/wp-json\/wp\/v2\/pages\/19","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/pages.charlotte.edu\/greg-gbur\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/pages.charlotte.edu\/greg-gbur\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/pages.charlotte.edu\/greg-gbur\/wp-json\/wp\/v2\/users\/680"}],"replies":[{"embeddable":true,"href":"https:\/\/pages.charlotte.edu\/greg-gbur\/wp-json\/wp\/v2\/comments?post=19"}],"version-history":[{"count":27,"href":"https:\/\/pages.charlotte.edu\/greg-gbur\/wp-json\/wp\/v2\/pages\/19\/revisions"}],"predecessor-version":[{"id":238,"href":"https:\/\/pages.charlotte.edu\/greg-gbur\/wp-json\/wp\/v2\/pages\/19\/revisions\/238"}],"wp:attachment":[{"href":"https:\/\/pages.charlotte.edu\/greg-gbur\/wp-json\/wp\/v2\/media?parent=19"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}