разделение изотопов и их применение,
спектроскопия,
квантовый контроль,
квантовый компьютер,
глобальная оптимизация,
лазер,
МГД-генератор.
Основные темы научной работы
Квантовые технологии, физическая химия, аэродинамика, фотохимия,теоретическая и прикладная ядерная физика, физика плазмы и её применения, приборостроение.
Основные публикации:
Lyakhov, K.A. and Lee, H.J. and Pechen, A.N., “Some issues of industrial scale boron isotopes separation by the laser assisted retarded condensation (SILARC) method”, Separation and Purification Technology, 176:4 (2017), 402-411
Lyakhov, K.A. and Lee, H.J. and Pechen, A.N., “Some Features of Boron Isotopes Separation by the Laser-Assisted Retardation of Condensation Method in Multipass Irradiation Cell Implemented as a Resonator”, IEEE Journal of Quantum Electronics, 52:12 (2016), 1400208-1-8
Ahmed, M.W. and Choi, S. and Lyakhov, K.A. and Shaislamov, U. and Mongre, R.K. and Jeong, D.K. and Suresh, R. and Lee, H.J., “High-frequency underwater plasma discharge application in antibacterial activity”, Plasma Phys. Rep., 2017, 1-12
Mishustin, I.N., Lyakhov,K.A., “Baryon deceleration and partonic plasma creation by strong chromofields in ultra-relativistic heavy ion collisions”, Physics of Atomic Nuclei, 75 (2012), 371-392
Lyakhov, K.A. and Lee, H.-J., “Baryon kinetic energy loss in the color flux tube model”, Physical Review C, 84 (2011), 055206
K. A. Ляхов, A. Н. Печень, “Критерий условной оптимизации для разделения изотопов циркония при помощи метода лазерного торможения конденсации”, Математика квантовых технологий, Сборник статей, Труды МИАН, 313, МИАН, М., 2021, 143–153; K. A. Lyakhov, A. N. Pechen, “Constrained Optimization Criterion for Zirconium Isotope Separation by the Method of Laser-Assisted Retardation of Condensation”, Proc. Steklov Inst. Math., 313 (2021), 131–141
2.
K. A. Lyakhov, A. N. Pechen, “Selective multi-line excitation of isotopologues with similar quantum spectra as a function of gas flow pressure, temperature, and laser pulse spectrum”, AIP Conf. Proc., 2362, 2021, 040008 , 6 pp. ;
2020
3.
K. A. Lyakhov, A. N. Pechen, “CO$_2$ laser system design for efficient boron isotope separation by the method of selective laser-assisted retardation of condensation”, Appl. Phys. B, 126 (2020), 141 , 11 pp. (cited: 2) (cited: 3);
4.
K. A. Lyakhov, A. N. Pechen, “Evolution of the Enrichment Factor for an Iterative Scheme of Zirconium Isotopes Separation”, Lobachevskii J. Math., 41:12 (2020), 2345–2351 (cited: 1) (cited: 1) (cited: 1);
2019
5.
K.A.Lyakhov, A.N.Pechen, “Basic Vacuum Pump System Prerequisites for Boron Isotopes Separation by the Laser Assisted Retardation of Condensation (SILARC) method”, Physical and Chemical Processes in Atomic Systems, XVII International Scientific Conference and School of Young Scholars (Moscow, Russia, 2019, Oct’28-30), NRNU MEPhI, 2019, 67https://pnasc.mephi.ru/wp-content/uploads/2019/10/tp_final.pdf
6.
K. A. Lyakhov, A. N. Pechen, H. J. Lee, “Optimal CO2 laser system design for 11BCl3 excitation by the method of selective laser assisted retardation of condensation”, J. Electr. Eng. Electron. Technol., 8 (2019), 86;
2018
7.
K. A. Lyakhov, A. N. Pechen, H.-J. Lee, “The efficiency of one-line versus multi-line excitation of boron isotopes within the method of selective laser assisted retardation of condensation”, AIP Advances, 8 (2018), 95325 , 10 pp. (cited: 7) (cited: 8)
8.
К. А. Ляхов, А. Н. Печень, “Целевая функция в задаче оптимального лазерного разделения изотопов методом селективного торможения”, Квантовая вероятность, Итоги науки и техн. Сер. Соврем. мат. и ее прил. Темат. обз., 151, ВИНИТИ РАН, М., 2018, 62–66
2017
9.
K. A. Lyakhov, H. J. Lee, A. N. Pechen, “Some issues of industrial scale boron isotopes separation by the laser assisted retarded condensation (SILARC) method”, Sep. Purif. Technol., 176:4 (2017), 402–411 (cited: 15) (cited: 17)
2016
10.
K. A. Lyakhov, Heon Ju Lee, A. N. Pechen, “Some features of Boron isotopes separation by the laser-assisted retardation of condensation method in multipass irradiation cell implemented as a resonator”, IEEE Journal of Quantum Electronics, 52:12 (2016), 1400208–8 (cited: 4) (cited: 6)
2015
11.
K. A. Lyakhov, K. H. Lee, “Some features of experimental setup design for isotopes separation by the laser assisted retardation of condensation method”, J. Laser Appl., 27:2 (2015), 022008 (cited: 10) (cited: 10)
12.
K. A. Lyakhov, H. J. Lee, “New Experimental Setup for Boron Isotopes Separation by the Laser Assisted Retardation of Condensation Method”, J. Nanoscience Nanotechnology, 15:11 (2015), 8502–8507 (cited: 4) (cited: 4)
2013
13.
K. A. Lyakhov, H. J. Lee, “Basic features of boron isotope separation by SILARC method in the two-step iterative static model”, Appl. Phys. B, 111:2 (2013), 261–272 (cited: 11) (cited: 11)
14.
K. A. Lyakhov, H. J. Lee, “Two-step iterative static model for boron isotope separation”, Annals of Nuclear Energy, 54 (2013), 274–280 (cited: 1) (cited: 1)
2012
15.
I. N. Mishustin, K. A. Lyakhov, “Baryon deceleration and partonic plasma creation by strong chromofields in ultra-relativistic heavy ion collisions”, Атомная физика, 75:3 (2012), 399–420 (цит.: 4) ; Physics of Atomic Nuclei, 75:3 (2012), 371–392 (cited: 4) (cited: 4)
2011
16.
K. A. Lyakhov, H.-J. Lee, I. N. Mishustin, “Baryon stopping and partonic plasma production by strong chromofields”, Physical Review C, 84 (2011), 055202 (cited: 1) (cited: 2)
17.
K. A. Lyakhov, H.-J. Lee, “Baryon kinetic energy loss in the color flux tube model”, Physical Review C, 84 (2011), 055206
2008
18.
K. A. Lyakhov, “Particles production in expanding color flux tube”, Physics of Particles and Nuclei, 39 (2008), 1110–1112
2007
19.
I. N. Mishustin, K. A. Lyakhov, “Baryon deceleration by strong chromofields in ultra-relativistic heavy ion collisions”, Physical Review C, 76 (2007), 011603 (cited: 9) (cited: 13)
2021
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