Optical studies of cerium doped yttrium aluminum garnet single crystals CM Wong, SR Rotman, C Warde Applied physics letters 44 (11), 1038-1040, 1984 | 118 | 1984 |
Beam width and transmitter power adaptive to tracking system performance for free-space optical communication S Arnon, S Rotman, NS Kopeika Applied optics 36 (24), 6095-6101, 1997 | 101* | 1997 |
Improved covariance matrices for point target detection in hyperspectral data CE Caefer, J Silverman, O Orthal, D Antonelli, Y Sharoni, SR Rotman Optical Engineering 47 (7), 076402-076402-13, 2008 | 100 | 2008 |
Modeling human search and target acquisition performance: IV. Detection probability in the cluttered environment G Tidhar, G Reiter, Z Avital, Y Hadar, SR Rotman, V George, ... Optical Engineering 33 (3), 801-808, 1994 | 97 | 1994 |
Defect‐property correlations in garnet crystals. VI. The electrical conductivity, defect structure, and optical properties of luminescent calcium and cerium‐doped yttrium … SR Rotman, HL Tuller, C Warde Journal of applied physics 71 (3), 1209-1214, 1992 | 94 | 1992 |
Clutter metrics for target detection systems SR Rotman, G Tidhar, ML Kowalczyk IEEE Transactions on Aerospace and Electronic Systems 30 (1), 81-91, 1994 | 79* | 1994 |
Some optical properties of Cr4+-doped crystals B Lipavsky, Y Kalisky, Z Burshtein, Y Shimony, S Rotman Optical Materials 13 (1), 117-127, 1999 | 72 | 1999 |
Defect‐property correlations in garnet crystals: The electrical conductivity and defect structure of luminescent cerium‐doped yttrium aluminum garnet SR Rotman, RP Tandon, HL Tuller Journal of applied physics 57 (6), 1951-1955, 1985 | 72 | 1985 |
Analysis of false alarm distributions in the development and evaluation of hyperspectral point target detection algorithms CE Caefer, MS Stefanou, ED Nielsen, AP Rizzuto, O Raviv, SR Rotman Optical Engineering 46 (7), 076402-076402-15, 2007 | 65 | 2007 |
Non-radiative energy transfer in non-uniform codoped laser crystals SR Rotman, FX Hartmann Chemical physics letters 152 (4-5), 311-318, 1988 | 63 | 1988 |
Defect luminescence in cerium‐doped yttrium aluminum garnet SR Rotman, C Warde Journal of applied physics 58 (1), 522-525, 1985 | 63 | 1985 |
Performance limitations of free-space optical communication satellite networks due to vibrations: direct-detection digital mode S Arnon, SR Rotman, NS Kopeika 10th Meeting on Optical Engineering in Israel 3110, 357-368, 1997 | 61 | 1997 |
Evaluating subpixel target detection algorithms in hyperspectral imagery Y Cohen, Y August, DG Blumberg, SR Rotman Journal of Electrical and Computer Engineering 2012 (1), 103286, 2012 | 58 | 2012 |
Evaluation of human detection performance of targets embedded in natural and enhanced infrared images using image metrics G Aviram, SR Rotman Optical Engineering 39 (4), 885-896, 2000 | 58 | 2000 |
Comparing multispectral image fusion methods for a target detection task J Lanir, M Maltz, SR Rotman Optical Engineering 46 (6), 066402-066402-8, 2007 | 57 | 2007 |
Solar-pumped solid state laser program M Lando, JA Kagan, Y Shimony, YY Kalisky, Y Noter, A Yogev, ... 10th Meeting on Optical Engineering in Israel 3110, 196-201, 1997 | 56 | 1997 |
Impurity local phonon nonradiative quenching of Yb/sup 3+/fluorescence in ytterbium-doped silicate glasses Z Burshtein, Y Kalisky, SZ Levy, P Le Boulanger, S Rotman IEEE Journal of quantum electronics 36 (8), 1000-1007, 2000 | 55 | 2000 |
Defect‐property correlations in garnet crystals. V. Energy transfer in luminescent yttrium aluminum–yttrium iron garnet solid solutions SR Rotman, C Warde, HL Tuller, J Haggerty Journal of applied physics 66 (7), 3207-3210, 1989 | 54 | 1989 |
Performance limitations of a free-space optical communication satellite network owing to vibrations: heterodyne detection S Arnon, SR Rotman, NS Kopeika Applied Optics 37 (27), 6366-6374, 1998 | 49 | 1998 |
Optimum transmitter optics aperture for satellite optical communication S Arnon, S Rotman, NS Kopeika IEEE Transactions on Aerospace and Electronic Systems 34 (2), 590-596, 1998 | 49 | 1998 |