Анатолій Лапчук
Анатолій Лапчук
доктор технічних наук, Інститут проблем реєстрації інформації НАН
Verified email at ipri.kiev.ua
Cited by
Cited by
Speckle suppression in scanning laser display
V Yurlov, A Lapchuk, S Yun, J Song, H Yang
Applied optics 47 (2), 179-187, 2008
Speckle suppression in laser display using several partially coherent beams
S An, A Lapchuk, V Yurlov, J Song, HW Park, J Jang, W Shin, ...
Optics express 17 (1), 92-103, 2009
Speckle suppression in scanning laser displays: aberration and defocusing of the projection system
V Yurlov, A Lapchuk, S Yun, J Song, I Yeo, H Yang, S An
Applied optics 48 (1), 80-90, 2009
Diffraction-type optical modulator and display apparatus including the same
V Yurlov, HS Yang, SK Yun, A Lapchuk
US Patent App. 12/199,754, 2009
A novel diffractive micro-optical modulator for mobile display applications
SK Yun, JH Song, SD An, IJ Yeo, YJ Choi, YG Lee, HW Park, KB Han, ...
MOEMS and Miniaturized Systems VII 6887, 688702, 2008
Full speckle suppression in laser projectors using two Barker code-type diffractive optical elements
A Lapchuk, A Kryuchyn, V Petrov, V Yurlov, V Klymenko
JOSA A 30 (1), 22-31, 2013
Enhancement of magneto-optical effects in magnetic nanoparticles near gold-dielectric surfaces
VG Kravets, AS Lapchuk
Applied optics 49 (26), 5013-5019, 2010
Estimation of optical efficiency of a near-field optical microscope on the basis of a simplified mathematical model
AS Lapchuk
Journal of Optics A: Pure and Applied Optics 3 (6), 455, 2001
Spatial optical modulator (SOM): high-density diffractive laser projection display
SK Yun, JH Song, IJ Yeo, YJ Choi, V Yurlov, SD An, HW Park, HS Yang, ...
Emerging Liquid Crystal Technologies II 6487, 648710, 2007
Mode propagation in optical nanowaveguides with dielectric cores and surrounding metal layers
AS Lapchuk, D Shin, HS Jeong, CS Kyong, DI Shin
Applied optics 44 (35), 7522-7531, 2005
Near-field optical microscope working on TEM wave
AS Lapchuk, AA Kryuchyn
Ultramicroscopy 99 (2-3), 143-157, 2004
Optimal speckle suppression in laser projectors using a single two-dimensional Barker code diffractive optical element
A Lapchuk, A Kryuchyn, V Petrov, V Klymenko
JOSA A 30 (2), 227-232, 2013
Local plasmon resonance at metal wedge
AS Lapchuk, SA Shylo, IP Nevirkovets
JOSA A 25 (7), 1535-1540, 2008
Impact of speed, direction, and accuracy of diffractive optical element shift on efficiency of speckle suppression
A Lapchuk, V Yurlov, A Kryuchyn, GA Pashkevich, V Klymenko, O Bogdan
Applied Optics 54 (13), 4070-4076, 2015
Numerical simulation of characteristics of near-field microstrip probe having pyramidal shape
AS Lapchuk, SK Yun, V Yurlov, JH Song, S An, I Nevirkovets
JOSA A 24 (8), 2407-2417, 2007
Very efficient speckle suppression in the entire visible range by one two-sided diffractive optical element
A Lapchuk, G Pashkevich, O Prygun, I Kosyak, M Fu, Z Le, A Kryuchyn
Applied Optics 56 (5), 1481-1488, 2017
Signal of microstrip scanning near-field optical microscope in far-and near-field zones
YM Morozov, AS Lapchuk
Applied optics 55 (13), 3468-3477, 2016
Experiment evaluation of speckle suppression efficiency of 2D quasi-spiral M-sequence-based diffractive optical element
A Lapchuk, GA Pashkevich, OV Prygun, V Yurlov, Y Borodin, A Kryuchyn, ...
Applied optics 54 (28), E47-E54, 2015
Method of aberration compensation in sapphire optical disks for the long term data storage
VV Petrov, VP Semynozhenko, VM Puzikov, AA Kryuchyn, AS Lapchuk, ...
Functional materials, 2014
Optical schemes for speckle suppression by Barker code diffractive optical elements
A Lapchuk, A Kryuchyn, V Petrov, OV Shyhovets, GA Pashkevich, ...
JOSA A 30 (9), 1760-1767, 2013
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