Computational imaging JN Mait, GW Euliss, RA Athale Advances in Optics and Photonics 10 (2), 409-483, 2018 | 278 | 2018 |
Boundary integral methods applied to the analysis of diffractive optical elements DW Prather, MS Mirotznik, JN Mait JOSA A 14 (1), 34-43, 1997 | 192 | 1997 |
Understanding diffractive optic design in the scalar domain JN Mait JOSA A 12 (10), 2145-2158, 1995 | 171 | 1995 |
Millimeter-wave compressive holography CF Cull, DA Wikner, JN Mait, M Mattheiss, DJ Brady Applied optics 49 (19), E67-E82, 2010 | 157 | 2010 |
Experimental study of surface-plasmon scattering by individual surface defects II Smolyaninov, DL Mazzoni, J Mait, CC Davis Physical Review B 56 (3), 1601, 1997 | 157 | 1997 |
Design of binary-phase and multiphase Fourier gratings for array generation JN Mait JOSA A 7 (8), 1514-1528, 1990 | 148 | 1990 |
Upper bound on the diffraction efficiency of phase-only fanout elements U Krackhardt, JN Mait, N Streibl Applied optics 31 (1), 27-37, 1992 | 119 | 1992 |
Diffractive lens fabricated with binary features less than 60 nm JN Mait, A Scherer, O Dial, DW Prather, X Gao Optics Letters 25 (6), 381-383, 2000 | 98 | 2000 |
Evolutionary paths in imaging and recent trends JN Mait, R Athale, J van der Gracht Optics Express 11 (18), 2093-2101, 2003 | 90 | 2003 |
Vector-based synthesis of finite aperiodic subwavelength diffractive optical elements DW Prather, JN Mait, MS Mirotznik, JP Collins JOSA A 15 (6), 1599-1607, 1998 | 88 | 1998 |
Design of binary subwavelength diffractive lenses by use of zeroth-order effective-medium theory JN Mait, DW Prather, MS Mirotznik JOSA A 16 (5), 1157-1167, 1999 | 73 | 1999 |
Optical symbolic substitution: system design using phase-only holograms JN Mait, KH Brenner Applied Optics 27 (9), 1692-1700, 1988 | 73 | 1988 |
A hybrid finite element-boundary element method for the analysis of diffractive elements MS Mirotznik, DW Pratherf, JN Mait Journal of Modern Optics 43 (7), 1309-1321, 1996 | 70 | 1996 |
Three-dimensional analysis of subwavelength diffractive optical elements with the finite-difference time-domain method MS Mirotznik, DW Prather, JN Mait, WA Beck, S Shi, X Gao Applied Optics 39 (17), 2871-2880, 2000 | 63 | 2000 |
Design of Dammann gratings for two-dimensional, nonseparable, noncentrosymmetric responses JN Mait Optics letters 14 (4), 196-198, 1989 | 62 | 1989 |
Broadband antireflective properties of inverse motheye surfaces MS Mirotznik, BL Good, P Ransom, D Wikner, JN Mait IEEE transactions on antennas and propagation 58 (9), 2969-2980, 2010 | 60 | 2010 |
Binary subwavelength diffractive-lens design JN Mait, DW Prather, MS Mirotznik Optics Letters 23 (17), 1343-1345, 1998 | 44 | 1998 |
Computational millimeter wave imaging: Problems, progress, and prospects VM Patel, JN Mait, DW Prather, AS Hedden IEEE Signal Processing Magazine 33 (5), 109-118, 2016 | 43 | 2016 |
Boundary element method for vector modeling diffractive optical elements DW Prather, MS Mirotznik, JN Mait Diffractive and Holographic Optics Technology II 2404, 28-39, 1995 | 41 | 1995 |
Kinoform-based Nipkow disk for a confocal microscope S Yin, G Lu, J Zhang, FTS Yu, JN Mait Applied optics 34 (25), 5695-5698, 1995 | 39 | 1995 |