Program – VI International Conference “Photonics and Information Optics”

CONFERENCE OPENING. PLENARY

 

Wednesday, Ferbuary 01, 2017, 10.00                                          Room 406

 

 

1.    KRASNOK A.E.^1,2, MAKAROV S.V.², SAMUSEV A.K.², KIVSHAR Yu.S.^2,3, BELOV P.A.²

¹University of Texas, Austin, USA

²ITMO University, Saint Petersburg

³Australian National University, Canberra, Australia

Silicon nanophotonics

2.    RYABUSHKIN O.A.^1,2

¹Moscow Institute of Physics and Technology (State University), Dolgoprudny

²Fryazino Branch of Kotel’nikov Institute of Radioengineering and Electronics of RAS

Conception of the equivalent temperature in photonics

3.    Molchanov V.Ya., Yushkov K.B.

National University of Science and Technology “MISIS”, Moscow

Processing of ultrafast laser fields by acoustooptic methods with subterahertz frequency

4.     KRISHTOP V.V., GONCHAROVA P.S., TOLSTOV E.V., MAKSIMENKO V.A., LIVASHVILI A.I., LITVINOVA M.N., KIREEVA N.M., EFREMENKO V.G., SYUY A.V., POPOVA A.V.

Far Eastern State Transport University, Khabarovsk

Controlled interference filter for broadband radiation

 

 

POSTERS 1

 

Wednesday, Ferbuary 01, 2017, 12.00                                          Room 406

 

 

 

POSTERS 2

 

Wednesday, Ferbuary 01, 2017, 12.00                                          Room 407

 

 

 

Meeting 1

 

Wednesday, Ferbuary 01, 2017, 13.00                                          Room 406

 

5.    ANDREEV A.L.¹, ANDREEVA T.B.¹, KOMPANETS I.N.^1,2

¹Lebedev Physical Institute of the RAS, Moscow

²National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

Conditions of achieving the hysteresis-free continuous gray scale in a display cell with the helix-free ferroelectric LC

6.    SIDOROV N.V., PALATNIKOV M.N.

I.V. Tananaev Institute of Chemistry and Technology of Rare Elements and Mineral Raw Materials of Kola Science Center of the RAS, Apatity, Murmansk region

Optical properties and secondary structure of lithium niobate single crystals

7.    MAMBETOVA K. M., ARESTOV S.I., ORLIKOV L.N., SHANDAROV S.M., KULESHOV Yu.V.¹

Tomsk State University of Control Systems and Radioelectronics

¹Crystal T Ltd, Tomsk

Dynamics of pyroelectric generation of electron beam by monocrystal samples of lithium niobate

8.    MASHKOVICH E.A., SYCHUGIN S.A., BAKUNOV M.I.

Lobachevsky State University of Nizhny Novgorod

Conversion of ultrashort laser pulses into narrow-band terahertz radiation in a bulk lithium niobate crystal

9.    NALBANTOV N.N., STROGANOVA E.V., GALUTSKIY V.V.

Kuban State University, Krasnodar

Threshold parameters of 1.5 μm laser generation in LiNbO₃:Er and LiNbO₃: Er, Yb non-uniformly doped crystals

10.  KAPLUNOV I.A., GERASIMOV V.V.¹, KOLESNIKOV A.I.

Tver State University

¹Budker Institute of Nuclear Physics of SB RAS, Novosibirsk

Optical transmission of single crystalline germanium in the region of 40–700 sm^–1

11.  NOVIKOV V.B., MAYDYKOVSKIY A.I., MANTSYZOV B.I., MURZINA T.V.

Lomonosov Moscow State University

The Borrmann effect in one-dimensional photonic crystals in the Laue geometry

12.  Chumanov M.V.^1,2, Pargachev I.A.¹, Serebrennikov L.Ya.^1,2, Krakovsky V.A. ^1,2

¹Crystal T Ltd, Tomsk

²Tomsk State University of Control Systems and Radioelectronics

Devices for second harmonic generation based on periodically poled RKTP crystal

13.   VALITOVA A.F.¹, KORYUKIN A.V.^1,2, SALAKHOV M.Kh.^1,2

¹Kazan Federal University

²Intitute of Perspective Researches of Tatarstan Academy of Sciences, Kazan

Extraordinary reflection hybrid photonic-plasmonic crystal

14.   BIKBAEV R.G.¹, PANKIN P.S.¹, VYUNISHEV A.M.^1,2

¹Siberian Federal University, Krasnoyarsk

²Kirensky Institute of Physics SB RAS, Krasnoyarsk

The optical Tamm states at the interface between a photonic crystal and nanoporous silver

 

 

15.  KOZLOV A.A., ABDULLAEV S.D., KARPOV V.M., IVANOV A.V.¹

Moscow Technological University (Institution of Fine Chemical Technology)

¹Lomonosov Moscow State University

Sensors for organic solvents based on photonic crystals

16.  KRAISKII A.A., KRAISKII A.V.

Lebedev Physical Institute of the RAS, Moscow

About a possible mechanism to increase the probability of low-energy nuclear reactions in the crystal structures

 

 

Meeting 2

 

Wednesday, Ferbuary 01, 2017, 13.00                                          Room 407

 

17.  DAYNEKO S.V., HENDSBEE A.D., WELCH G.C.

University of Calgary, Alberta, Canada

Green solvent processed fullerene-free organic solar cells with efficiency over 4.8%

18.  Antsygin V.D.¹, Mamrashev A.A.^1,2, Nikolaev N.A.^1,2, Potaturkin O.I.^1,3

¹Institute of Automation and Electrometry SB RAS, Novosibirsk

²Institute of High current Electronics SB RAS, Tomsk

³Novosibirsk State University

Investigation of photoinduced semiconductor-metal phase transition in VO₂ films by spectroscopic methods

19.   BEZRUCHENKO V.S.^1,2, MAHILNY U.V., STANKEVICH A.I., MURAVSKY Al.An.¹, MURAVSKI An.Al.¹

¹Belarusian State University, Minsk

²Institute of Chemistry of New Materials of NAS of Belarus, Minsk

Gradient aligning layers for liquid crystal lenses

20.  SHAPIRO B.I., NEKRASOV А.D., МАNULIK Е.V.

Moscow Technological University (Institution of Fine Chemical Technology)

Metallocomplexis J-aggregates polymethine dyes as photosensors in organic electronics

21.  ADAMOV G.E., GREBENNIKOV E.P., POROSHIN N.O., SHMELIN P.S.

JSC «CSRIT «Technomash», Moscow

Influence nanoparticles Ag/SiO₂ on BR photocycle

22.   GORYAEV M.A.

The A.I. Herzen State Pedagogical University of Russia, Saint Petersburg

Dye sensitized photoeffect in silicon

23.   PICHUGIN I.S., IGNATIEV A.I.

ITMO University, Saint Petersburg

Chlorine photo-thermo-refractive glass

24.   BICHKOV A.B., KOZHINA A.S., MITYUREVA A.A., REZIKYAN A.G., SMIRNOV V.V.

Saint Petersburg State University

Dynamics of photoionization of lithium atom under the expose of strong, ultrashort X-ray radiation

25.  BUSHMAKIN V.S.^1,2, COJOCARU I.S.^1,2,3, TSYGANOK V.V.^1,2,3., LUCHNIKOV I.А.^1,2,3, DAVLETOV E.T.^1,2,3, KUBLIKOVA D.N.^1,2, PYATCHENKOV S.V.¹, SUKACHEV D.D.^1,4,5, AKIMOV A.V.^1,3,4

¹Russian Quantum Center, Scolkovo, Moscow region

²Moscow Institute of Physics and Technology (State University), Dolgoprudny

³Texas A&M University, City of College Station, USA

⁴Lebedev Physical Institute of the RAS, Moscow

⁵Harvard University, Cambridge, USA

Light assisted collisions in ultracold thulium

26.   BELKO N.V.¹, SAMTSOV M.P.^1,2, GUSAKOV G.A.^1,2, TARASOV D.S.^1,2

¹Belarusian State University, Minsk

²Sevchenko research institute of applied physical problems, Minsk, Belarus

Spectral properties of nanostructures of indotricarbocyanine dye

27.  ALIEV S.A., TROFIMOV N.S., CHEKHLOVA T.K.

Peoples’ Friendship University of Russia, Moscow

Properties of gel-method synthesized titanium dioxide films

28.  KONSTANTINOVA E.I.^1,2, BRYUKHANOV V.V.¹

¹Immanuel Kant Baltic Federal University, Kaliningrad

²Kaliningrad State Technical University

Nonradioactive resonance energy transfer between anthracene molecules and CdZnSZnS and CdZnSeS quantum dots
in polymethylmethacrylate films

 

 

Meeting 3

 

Wednesday, Ferbuary 01, 2017, 16.00                                          Room 406

 

29.  VIKULIN D.V., ALEXEYEV C.N., YAVORSKY M.A.

V.I. Vernadsky Crimean Federal University, Simferopol

A new mechanism of acousto-optic interaction in optical fibers

30.  POROKHOVNICHENKO D.L., DYAKONOV E.A., VOLOSHINOV V.B.

Lomonosov Moscow State University

Optimal parameters of acousto-optical interaction in KRS-5 crystal

31.  KUPREYCHIK M.I., BALAKSHY V.I.

Lomonosov Moscow State University

Acousto-optic interaction near optical axes in hyrotropic biaxial crystals

32.  ANTONOV S.N., FILATOV A.L.

Fryazino Branch of Kotel’nikov Institute of Radioengineering and Electronics of RAS

Acousto-optic technique for laser beam shaping

 

33.  PETROV N.I., PUSTOVOIT V.I.

Scientific and Technological Center of Unique Instrumentation of the RAS, Moscow

Acousto-optic resonator with ultra-narrow bandwidth

34.  IVANOV S.I., LAVROV A.P., MOLODYAKOV S.A., SAENKO I.I.

Peter the Great Saint-Petersburg Polytechnic University

Two-coordinate acousto-optic processor for estimation of parameters of radio emission from pulsars

35.  MUKHAMADIEV A.A.

Ufa State Aviation Technical University

Creating all-optical information-measuring system based on the acousto-optic elements

36.  BELKIN M.E., KLYUSHNIK D.A.

Moscow Technological University (MIREA)

Use of photonic approach for super-wide bandwidth RF signal interconnects construction

37.   ZLOKAZOV E.Yu., NEBAVSKIY V.A., STARIKOV R.S.

National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

Mathematical modeling of microwave photonic sampling WDM system

38.  VINOGRADOVA I.L., SULTANOV A.Kh., ANDRIANOVA A.V.

Ufa State Aviation Technical University

Principles of fiber-optic chirping devices and functions performed by device

39.  AVERCHENKO A.V.¹, ZOTOV A.M.¹, KOROLENKO P.V.^1,2, PAVLOV N.N.¹

¹Lomonosov Moscow State University

²Lebedev Physical Institute of the RAS, Moscow

The escalation of the wavefront disturbances of the light beams in transmit and receive paths of optical systems

40.  ZACHINYAEV Yu.V., PLIVAK S.A., SHUMILIN A.S.

Southern Federal University, Taganrog

Secured data transmission system based on the VLC-technology with PLC interface

 

 

Meeting 4

 

Wednesday, Ferbuary 01, 2017, 16.00                                          Room 407

 

41.  BORSHCHEV O.V., SKOROTETCKY M.S., SURIN N.M., PONOMARENKO S.A.

Enikolopov Institute of Synthetic Polymer Materials of RAS, Moscow

Nanostructured organosilicon luminophores as a new class of organic luminophores

42.  KUZMIN N.N.^1,2, BOLDYREV K.N.², DOBRETSOVA E.A.²

¹Lomonosov Moscow State University

²Institute for Spectroscopy of the RAS, Troitsk

Study of luminescent properties of gallium borates with the huntite structure

43.   KUROCHKINA M.A., KONSHINA E.A.

ITMO University, Saint Petersburg

Luminescent properties variation of quantum dots CdSe / ZnS In LC matrix by electric field

44.  STROKOVA Yu.A., SVYAKHOVSKIY S.E., SALETSKY A.M.

Lomonosov Moscow State University

Luminescence decay kinetics of donor molecules in one-dimensional annealed porous silicon photonic crystal

45.  KORSHUNOV V.M.^1,2, AMBROZEVICH S.A.^1,2, TAIDAKOV I.V.², VITUKHNOVSKY A.G.^2,3

¹Bauman Moscow State Technical University

²Lebedev Physical Institute of the RAS, Moscow

³Moscow Institute of Physics and Technology (State University), Dolgoprudny

Luminescent properties of β diketonates of scandium (III)

46.  METLIN M.T.¹, AMBROZEVICH S.A.^1,2, METLINA D.A.¹, TAIDAKOV I.V.¹, VITUKHNOVSKY A.G.^1,3

¹Lebedev Physical Institute of the RAS, Moscow

²Bauman Moscow State Technical University

³Moscow Institute of Physics and Technology (State University), Dolgoprudny

Luminescence of pyrazolic 1,3-diketone Pr(III) complexes with 1,10-phenanthroline

47.  BUKHARIN M.A.^1,2, SKRYABIN N.N.^1,2, KHUDYAKOV D.V.^2,3, VARTAPETOV S.K.³

¹Moscow Institute of Physics and Technology (State University), Dolgoprudny

²Optosystems Ltd., Moscow

³Prokhorov General Physics Institute of the RAS, Moscow

Analysis of thermal processes of permanent refractive index change under the influence of femtosecond emission in cumulative regime

48.  BOLDYREV K.N., POPOVA M.N.

Institute for Spectroscopy of the RAS, Troitsk

Hyperfine structure in the spectra of LiYF₄:Ho³⁺ in an external magnetic field

49.  OSIPOV E.V., BELOGORLOV A.A., MARTYNOV I.L., DOVZHENKO D.S., CHISTYAKOV A.A.

National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

A new method of embedding of conjugated polymers into porous silicon photonic structures

50.  GARTMAN A.D., MAYDYKOVSKIY A.I., SVYAKHOVSKIY S.E., MITETELO N.V., EVLASHIN S.A., MURZINA T.V.

Lomonosov Moscow State University

Two-photon absorption in graphene oxide/silver nanoparticles composite material

51.   KHARITONOV А.V.^1,2, KHARINCEV S.S.^1,2, FISHMAN A.I.¹, SALAKHOV M.Kh.^1,2

¹Kazan Federal University

²Intitute of Perspective Researches of Tatarstan Academy of Sciences, Kazan

Raman lasing in titanium nitride plasmonic microresonator

52.  ZEMSKOV K.I., KARPOVA O.V.¹, KUDRYAVTSEVA A.D., MIRONOVA T.V., PERSHIN S.M.², PETROVA E.K.¹, STROKOV M.A., TCHERNIEGA N.V.

Lebedev Physical Institute of the RAS, Moscow

¹Lomonosov Moscow State University

²Prokhorov General Physics Institute of the RAS, Moscow

Stimulated low-frequency Raman scattering in suspensions of tobacco mosaic viruses and potato viruses (PVA and PVX)

 

 

Meeting 5

 

Thursday, Ferbuary 02, 2017, 10.00                                          Room 406

 

53.  KOLYMAGIN D.A.¹, ZVAGELSKY R.D.¹, CHUBICH D.A.¹, VITUKHNOVSKY A.G.^1,2

¹Moscow Institute of Physics and Technology (State University), Dolgoprudny

²Lebedev Physical Institute of the RAS, Moscow

Fabrication of 3D-periodic nano/microstructures for photonics by direct laser writing

54.   MINAEV N.V.¹, TARKHOV M.A.³, DUDOVA D.S.^1,2, BAGRATASHVILI V.N.¹

¹Institute of Photonic Technologies – branch of FSRC “Crystallography and Photonics” of the RAS, Troitsk

²National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

³CJSC ”Superconducting Nanotechnology”, Moscow

Nonlinear femtosecond optical lithography

55.  MENSOV S.N.^1,2, POLUSHTAYTSEV Yu.V.²

¹Lobachevsky State University of Nizhny Novgorod

²Razuvaev Institute of Organometallic Chemistry of RAS, Nizhny Novgorod

Optical matching of fibers in photopolymerisable media

56.  BOGACHKOV I.V., TRUKHINA A.I.

Omsk State Technical University

Problems of monitoring of modern fiber-optic communication lines

57.  DMITRIEVA K.A., BORODAKO K.A., SHELYAKOV A.V., IVANOV A.A., TIMOFEEV A.A.

National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

Application of laser radiation for creating micromechanical elements with two-way shape memory

58.  VANIN A.I., SOLOVYEV V.G.

Pskov State University

Modeling of Fano resonance in nanostructured material

59.  GAVRUSHKO V.V., IONOV A.S., KADRIEV O.R., LASTKIN V.A.

Yaroslav-the-Wise Novgorod State University

Optical characteristics of differential photodetectors based on silicon

60.  LOGACHEV P.A., RUZHITSKAYA D.D., RYZHIKOV S.B., RYZHIKOVA Yu.V.

Lomonosov Moscow State University

Self-organizing of fractal clusters of dendritic systems

61.  YAKUSHENKOV P.O.^1,2, BALAKLEYSKIY N.S.¹

¹National Research University of Electronic Technology “MIET”, Zelenograd

²Moscow Institute of Physics and Technology (State University), Dolgoprudny

Photonic integrated circuits

62.  Masalsky N.V.

Scientific Research Institute of System Researches of the RAS, Moscow

The quasi single mode optical waveguides on the basis of structure silicon on insulator

63.   UKOLOV D.S., EGOROV A.N., MAVRITSKIY O.B., PECHENKIN A.A., CHUMAKOV A.I.

National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

Solid immersion lens application for resolution enhancement of laser diagnostics of submicron semiconductor structures

64.   ODINOKOV S.B., SAGATELYAN H.R.

Bauman Moscow State Technical University

Experimental study on plasma-chemical etching of glass

 

 

PLENARY 2

 

Thursday, Ferbuary 04, 2016, 13.00                                          Room 406

 

65.  TRIBELSKY M.I.^1,2,3

¹Lomonosov Moscow State University

²National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

³Moscow Technological University (MIREA)

Peculiarities of light scattering by particles with high refractive index

66.  VOLOSTNIKOV V.G.

Samara Branch of the Lebedev Physical Institute

Optical vortices: the past, present and future

67.  BARACHEVSKI V.A., KRAYUSHKIN M.M.¹, KYIKO V.V.²

Photochemistry Center of the RAS, Moscow

¹Insitute of Organic Chemistry of the RAS, Moscow

²Prokhorov General Physics Institute of the RAS, Moscow

3D bitwise optical memory based on light-sensitive organic compounds

68.  ARAKELIAN S.M., KUCHERIK A.O., KUTROVSKAYA S.V., OSIPOV A.V., KHORKOV K.S., ISTRATOV A.V.

Stoletovs Vladimir State University

Topological units of photonics: manifestation of quantum dimension effects in optical characteristics and electrical conductivity

 

 

POSTERS 3

 

Thursday, Ferbuary 02, 2017, 15.00                                          Room 407

 

 

POSTERS 4

 

Thursday, Ferbuary 02, 2017, 15.00                                          Room 406

 

 

Meeting 6

 

Thursday, Ferbuary 02, 2017, 16.00                                          Room 406

 

69.  MAIMISTOV А.I.^1,2, LYASHKO E.I.²

¹National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

²Moscow Institute of Physics and Technology (State University), Dolgoprudny

The nonlinear surface waves on the interface between dielectric and topological insulator

70.  MAKAROV V.A., PETNIKOVA V.M.

Lomonosov Moscow State University

Adiabatic modulation of cnoidal wave by Akhmediev breather

71.   MELNICK M.V., TCYPKIN A.N., KOZLOV S.A.

ITMO University, Saint Petersburg

Theoretical analysis of the supercontinuum coherence time dependence on phase modulation coefficient

72.  KAZАNTSЕVА Е.V.

¹National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

Propagation of solitary waves in a Bragg grating which contains a localized spatial inhomogeneity of polarization of nonlinear resonantly absorbing periodic medium

73.  SHESTERIKOV A.V., GUBIN M.Yu., GLADUSH M.G.¹, PROKHOROV A.V.

Stoletovs Vladimir State University

¹Institute for Spectroscopy of the RAS, Troitsk

Formation of sub-picosecond plasmon pulses via cooperative effects in waveguide spaser

74.  BAKHVALOVA T.N., GLADYSHEV I.V., SHANDRYUK N.G.

Moscow Technological University (MIREA)

Modeling propagation loss in integrated optical waveguides based on various material platforms

75.  LYASHKO E.I.², МАIMISTОV А.I.^1,2

¹National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

²Moscow Institute of Physics and Technology (State University), Dolgoprudny

Dispersion characteristics of a slab hyperbolic waveguide with nonlinear core

76.  Akimov A.A., IVAKHNIK V.V., NIKONOV V.I.

Samara National Research University

Amplitude and spatial characteristics of the four-wave radiation converter on thermal nonlinearity in the scheme with positive feedback

77.  IVAKHNIK V.V., SAVEL’EV M.V.

Samara National Research University

Transient four-wave mixing in a transparent nanoliquid

78.  KULYA M.S., SEMENOVA V.A., OBRYVKIN A.S.., BESPALOV V.G.

ITMO University, Saint Petersburg

Study of group and phase velocities of THz pulsed vortex and quasi-Bessel beams

79.  BYLINA M.S., CHAYMARDANOV P.A.

Bonch-Bruevich Saint-Petersburg State University of Telecommunications

Computer model of EDFA amplifier with multiple signals and pump sources

80.  TCIBULNIKOVA A.V.^1,2, BRYUKHANOV V.V.¹

¹Immanuel Kant Baltic Federal University, Kaliningrad

²Kaliningrad State Technical University

The modeling of plasmons enhancement coefficients of two silver nanospheres cluster

 

 

Meeting 7

 

Thursday, Ferbuary 02, 2017, 16.00                                          Room 407

 

81.  GLADYSHEV A.V., KOSOLAPOV A.F., KOLYADIN A.N., PRYAMIKOV A.D., BIRIUKOV A.S., YATSENKO Yu.P., BUFETOV I.A.

Fiber Optic Research Center of the RAS, Moscow

Raman generation at 1.9µm in hydrogen-filled hollow-core revolver fibers with nested capillaries

82.   EGOROV F.A., POTAPOV V.T.

Fryazino Branch of Kotel’nikov Institute of Radioengineering and Electronics of RAS

Dynamics of fiber lasers based on active micro-(nano) fibers with spontaneous lifetime modulation

83.  NOSOV P.A., MARTYNOV G.N.¹

Bauman Moscow State Technical University

¹Lomonosov Moscow State University

Analysis of power optics for high power fiber laser processing heads

84.  , VERGELES S.S.^1,2, OGORODNIKOV L.L.^2,3, LEBEDEV V.V.^1,2, KOLOKOLOV I.V.^1,2

¹Landau Institute for Theoretical Physics of the RAS, Chernogolovka

²Moscow Institute of Physics and Technology (State University), Dolgoprudny

³Skolkovo Institute of Science and Technology, Moscow region

The difference of random fiber laser statistics from Gaussian one

85.  DURAEV V.P., MEDVEDEV S.V.

JSC “Nolatech”, Moscow

Tunable single-frequency semiconductor lasers and its application

86.  TOMILOV S.M., TARABRIN M.K., LAZAREV V.A., SHELESTOV D.A.

Bauman Moscow State Technical University

Thermostabilization system for mid-infrared solid state laser active media

87.  KOZLOVSKII K.I., LISOVSKY M.I., PLEKHANOV A.A., CHISTYAKOV A.A.

National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

Features of broadband THz low-inductance discharge with laser initiation

88.   SOROKIN Yu.V.

National Center of Laser Systems and Complexes Astrophysika, Moscow

Adder on photonic crystals

 

89.   KOZLOV D.A.¹, KOTLYAR V.V.^1,2

¹Image processing systems institute of the RAS, Samara

²Samara National Research University

Sharp laser light focusing by a two-layer microcylinder with circular cross-section

90.  VASILTSOV V.V., GALUSHKIN M.G., PANCHENKO V.Ya.

Institute on Laser and Information Technologies – branch of FSRC “Crystallography and Photonics” of the RAS, Shatura

Dynamic characteristics of channel formation in biotissue under CO₂ laser radiation

91.  REPIN V.E.^1,2, NIKITIN D.G.^1,2, TYRTYSHNYY V.A.²

¹Moscow Institute of Physics and Technology (State University), Dolgoprudny

²IRE-Polus Corporation, Fryazino

Comparison of SiO₂/Ta₂O₅ antireflection coatings laser induced damage thresholds

92.  KORONNOV A.A.¹, SAFUTIN A.E.¹, ZEMLYANOV M.M.¹, ZVEREV G.M.^1,2

¹JSC “POLYUS Research Institute of M.F. Stelmah”, Moscow

²Moscow Institute of Physics and Technology (State University), Dolgoprudny

Durability of photodiodes to laser irradiation

 

 

Meeting 8

 

Friday, Ferbuary 03, 2017, 10.00                                          Room 406

 

93.  SCHELEV M.Ya., MESHKOV O.I.¹, SHASHKOV E.V.

Prokhorov General Physics Institute of the RAS, Moscow

¹Budker Institute of Nuclear Physics of SB RAS, Novosibirsk

Picosecond streak camera application for electron bunch diagnostics in accelerators

94.  IVANOV А.D.¹, MINKOV K.N.^1,2, SAMOILENKO A.A.¹

¹All-Russian Research Institute for Optical and Physical Measurements, Moscow

²Moscow Institute of Electronics and Mathematics of Higher School of Economics

Optical microcavity as a primary measuring transducer with high sensitivity

95.  VEDYASHKINA A.V., RINKEVICHYUS B.S., PAVLOV I.N.

National Research University "Moscow Power Engineering Institute"

Investigation of diffusion layer of liquid using refraction of structured laser radiation

96.  BUSURIN V.I., KOROBKOV V.V., DIACHKOV V.V.

Moscow Aviation Institute (National Research University)

Interferometric method of processing of solid-state wave gyroscopes information

97.   BARYSHNIKOV N.V., DENISOV D.G., KARASSIK V.E., KRASNOVA E.V., ORLOV V.M.

Bauman Moscow State Technical University

Analysis of the influence of noise in the ARS method of measurement errors of parameters of nanometer-level roughness of optical components profiles

98.   MAKIN V.S., GLUSCHENKO L.A., PESTOV Yu.I.

Scientific Research Institute for Optoelectronic Instrument Engineering, Sosnovy Bor, Leningrad region

Pulsed wave remote sensing

99.   STEPANOV V.A., BELIH V.V., AIZIKOVICH A.A.

Kalashnikov Izhevsk State Technical University

Information-entropy method of mapping the organs of human chest based on the multifractal analysis of the structure of roentgenograms

100. ZVERZHKHOVSKIY V.D., KRETUSHEV А.V., EVDOKIMOV A.A., FETISOV Yu.K.

Moscow Technological University (MIREA)

The comparison of different phase microscopy methods to living T lymphocytes determination

101.   TALAIKOVA N.A.¹, RYABUKHO V.P.^1,2

¹Saratov National Research State University

²Institute of Precision Mechanics and Control of the RAS, Saratov

Manifestation of the spatial coherence effects in experiments by diffraction phase microscopy

102.   PAVLOV I.N., RINKEVICHYUS B.S., TOLKACHEV A.V., VEDYASHKINA A.V.

National Research University "Moscow Power Engineering Institute"

Application of surface plasmon resonance method for visualization of phase transitions in a near-wall layer of water droplet

103.   ARTYUKOV I.A., BUSAROV A.S., VINOGRADOV A.V., POPOV N.L.

Lebedev Physical Institute of the RAS, Moscow

X-ray lithography and microscopy at the inclined arrangement of masks and objects

104. Komotskii V.A., SOKOLOV Yu.M., Suetin n.v.

Peoples’ Friendship University of Russia, Moscow

Device of a new type for periodical modulation of laser radiation

 

 

Meeting 9

 

Friday, Ferbuary 03, 2017, 13.00                                          Room 406

 

105. GIBIN I.S., NEJEVENKO E.S.

Institute of Automation and Electrometry SB RAS, Novosibirsk

Optoelectronic convolutional neural network for images recognition

106. BYKOVSKY A.Yu., SHERBAKOV A.A.¹

Lebedev Physical Institute of the RAS, Moscow

¹Moscow Institute of Physics and Technology (State University), Dolgoprudny

Multiple-valued logic models for objects classification

107.   PAVLOV A.V.

ITMO University, Saint Petersburg

On the effectiveness of correlated parts detecting by the superimposed holograms method in dependence of the properties
of recording media

 

108.   Ivanov P.A.

Yaroslavl State Technical University

DCCF and polynomial filters in problems of distorted images recognition

109. BUSURIN V.I., KNYAZ V.A., KOROBKOV K.A.

Moscow Aviation Institute (National Research University)

Method of processing combined «rough-precise» information in gestures recognition system

110. KOTOV V.M., SHKERDIN G.N., AVERIN S.V.

Fryazino Branch of Kotel’nikov Institute of Radioengineering and Electronics of RAS

Optical image edge enhancement with the using of the acousto-optic filters from the gyrotropic material

111.   VERENIKINA N.M., KOVALEV M.S., KOLOSOVA E.S., MALININA P.I.

Bauman Moscow State Technical University

Methods of correction phase distortion based on diffractive optical elements

112. KRASNOV V.V., MINAEVA E.D.

National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

Application of direct search with random trajectory method for reduction of phase diffractive optical elements synthesis error

113.   ARTYUKOV I.A., IRTUGANOV N.N.

Lebedev Physical Institute of the RAS, Moscow

The non-linear noise reduction with auto-fit parameters in microtomography studies of low-contrast objects

114.   EVTIKHIEV N.N., STARIKOV R.S., CHERYOMKHIN P.A.

National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

Accurate and rapid method of measurement of temporal noise of photo- and videocameras

115. KAPRANOV V.V., MATSAK I.S., TUGAENKO V.Yu., BLANK A.V.¹

S.P. Korolev Rocket and Space Corporation Energia, Korolev

¹Lomonosov Moscow State University

Background reduction laser illumination imaging based on dual-band camera-system

116. MOSHCHEV I.S.^1,2, KUZNETSOV P.A.²

¹National Research University "Moscow Power Engineering Institute"

²JSC «RD&P Center «Orion», Moscow

320×256 InGaAs/InP photomodule for active imagers

 

 

Meeting 10

 

Friday, Ferbuary 03, 2017, 16.00                                          Room 406

 

117. TOLSTIK A.L.

Belarusian State University, Minsk

Polarization dynamic holography

118. MOROZOV A.V.¹, PUTILIN A.N., DUBYNIN S.E.¹, KOPENKIN S.S.², BORODIN Yu.P.^2,

Lebedev Physical Institute of the RAS, Moscow

¹Samsung Research Center, Moscow

²Moscow Technological University (MIREA)

Coherent backlight units for holographic display

119.   SHEVKUNOV I.A., PETROV N.V., KATKOVNIK V.Ya.¹

ITMO University, Saint Petersburg

¹Tampere University of Technology, Finland

Reconstruction method for off-axis holograms based on multidirectional nonsymmetrical windows and intersection of confidence intervals rule

120. KALENKOV G.S.¹, KALENKOV S.G.², KISELEV V.A.¹^٫³, KLIMENKO S.V.⁴

¹Moscow Institute of Physics and Technology (State University), Dolgoprudny

²Moscow Polytechnic University

³Scientific and Technical Centre «Atlas». Moscow

⁴Institute of Physical and Technical Informatics, Protvino

Virtual environment, like the technology of visualization hyperspectral holograms

121. PETROV N.V.¹, SHEVKUNOV I.A.¹, BELASHOV A.V.^1,2, NALEGAEV S.S.¹, PUTILIN S.E.¹, LIN Y.-C.³, CHANG C.-J.³

¹ITMO University, Saint Petersburg

²Ioffe physical-technical institute of the RAS, Saint-Petersburg

³National Taiwan Normal University, Taipei, Taiwan

Time-resolved inline holography for investigation of optical nonlinear interaction

122. NAYDEN L.A., TSYGANOV I.K., ODINOKOV S.B.

Bauman Moscow State Technical University

Study of color holographic images producing methods by using diffraction gratings

123. ZINOVIEV A.P.

Institute of Applied Physics of the RAS, Nizhny Novgorod

Optimization of the data reconstruction method in the digital holography

124.   Zlokazov E.Yu.¹, KOVALEV M.S., KRASIN G.K., MALININA P.I., ODINOKOV S.B., TALALAEV V.Ye.

Bauman Moscow State Technical University

¹National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

Numerical calculation of Fresnel hologram for holographic optical sensors

125. Pavlov P.V., Malov А.N., POPOV F.N.

Air Force Academy named after prof. N.E. Zhukovsky and Yu.A Gagarin, Voronezh

A method for identifying defects in the internal structure of composite materials using digital speckle photography

126. DYACHENKO A.A.^1,2, RYABUKHO V.P.^1,2

¹Saratov National Research State University

²Institute of Precision Mechanics and Control of the RAS, Saratov

Effect of spatial and temporal spectral properties of the optical systems in polychromatic interference microscopy

127. GURYLEV O.A., ODINOKOV S.B., LUSHNIKOV D.S., Zherdev A.Yu., SHISHOVA M.V.

Bauman Moscow State Technical University

Design and research an optical system of linear encoder based on foursectional diffraction grating

128. KRAISKII A.V., POSTNIKOV V.A.¹, SHEVCHENKO M.A., SULTANOV T.T.

Lebedev Physical Institute of the RAS, Moscow

¹Baikov Institute of Metallurgy and Materials Sciences of the RAS, Moscow

On the accuracy of determining the concentration of glucose in the blood plasma using holographic sensors

 

 

 

Posters 1

Wednesday, Ferbuary 03, 2017, 12.00

 

129. ANGERVAKS A.E., AKSENOVA K.A., RYSKIN A.I.

ITMO University, Saint Petersburg

Mid-infrared volume holographic filters creation method

130. SHEPELEVICH V.V., MAKAREVICH A.V., SHANDAROV S.M.¹

I.P. Shamyakin Mozyr State Pedagogical University, Belarus

¹Tomsk State University of Control Systems and Radioelectronics

The dependence of the output characteristics of holograms in the BTO crystal on its thickness

131.   ROMASHKO R.V.^1,2, Asalkhanova M.A.¹, KULCHIN Yu.N.^1,2

¹Institute of Automation and Control Processes of FEB RAS, Vladivostok

²Far Eastern Federal University, Vladivostok

Adaptive interferometer based on orthogonal three-wave mixing in photorefractive crystal

132. ASHUROV M.S., GORELIK V.S.¹, KLIMONSKY S.O.

Lomonosov Moscow State University

¹Lebedev Physical Institute of the RAS, Moscow

Optical properties of one-dimensional photonic crystals

133. KRAISKII A.A., KRAISKII A.V.

Lebedev Physical Institute of the RAS, Moscow

About the properties of increasing the amplitude of the field near the edge of the gap one-dimensional photonic crystal

134. PRUDNIKOV I.R.

Lomonosov Moscow State University

A resonant enhancement of light intensity in a 1-D photonic crystal-based interferometer with a thin spacer film

135. KRYUKOVA I.S., MARTYNOV I.L., DOVZHENKO D.S., CHISTYAKOV A.A.

National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

Modeling of optical properties of hybrid structures based on luminophores embedded into one-dimensional photonic crystal using FDTD method

136. KORYUKIN A.V.^1,2, SALAKHOV M.Kh.^1,2

Kazan Federal University

¹Intitute of Perspective Researches of Tatarstan Academy of Sciences, Kazan

Transmission through self-assembled hybrid self-assembled photonic-plasmonic crystals

137. VYUNISHEV A.M.^1,2, BIKBAEV R.G.², PANKIN P.S.², SVYAKHOVSKIY S.E.³

¹Kirensky Institute of Physics SB RAS, Krasnoyarsk

²Siberian Federal University, Krasnoyarsk

³Lomonosov Moscow State University

Band formation in quasiperiodic photonic crystals

138. INYUSHOV A.V., TRUSHNIKOV I.A., SAFRONOVA P.K., SARKYT A., SHANDAROV V.М.

Tomsk State University of Control Systems and Radioelectronics

Optical generation of one-dimensional photonic structures with Bessel-like profile in lithium niobate

139. TEPLYAKOVA N.А., SIDOROV N.V., PALATNIKOV M.N.

I.V. Tananaev Institute of Chemistry and Technology of Rare Elements and Mineral Raw Materials of Kola Science Center of the RAS, Apatity, Murmansk region

Optical properties of the crystal LiNbO₃:Fe(0.02):Zn(4.34) mol.%

140. SYUY A.V., KILE Е.О., PROKOPIV N.N., SIDOROV N.V.¹, PALATNIKOV M.N.¹

Far Eastern State Transport University, Khabarovsk

¹I.V. Tananaev Institute of Chemistry and Technology of Rare Elements and Mineral Raw Materials of Kola Science Center of the RAS, Apatity, Murmansk region

Study of homogeneous lithium niobate crystal by interference-polarization method

141. VERKHOTUROV A.O., SHANDAROV V.М.

Tomsk State University of Control Systems and Radioelectronics

Optical formation of diffraction structures in lithium niobate with photorefractive surface layer

142. MANUKOVSKAYA D.V., SIDOROV N.V., PALATNIKOV M.N.

I.V. Tananaev Institute of Chemistry and Technology of Rare Elements and Mineral Raw Materials of Kola Science Center of the RAS, Apatity, Murmansk region

Fractal analysis of photoinduced light scattering pictures in lithium niobate crystals with low photorefractive effect

143.   SYUY A.V., KILE Е.О., PROKOPIV N.N., SIDOROV N.V.¹, PALATNIKOV M.N.¹

Far Eastern State Transport University, Khabarovsk

¹I.V. Tananaev Institute of Chemistry and Technology of Rare Elements and Mineral Raw Materials of Kola Science Center of the RAS, Apatity, Murmansk region

Electro-optical properties of lithium niobate crystals

144. LITVINOVA M.N., POGODINA V.A., SYUY A.V., KRISHTOP V.V., SIDOROV N.V.¹, PALATNIKOV M.N.¹

Far Eastern State Transport University, Khabarovsk

¹I.V. Tananaev Institute of Chemistry and Technology of Rare Elements and Mineral Raw Materials of Kola Science Center of the RAS, Apatity, Murmansk region

Conversion of broadband infrared radiation and the structural disorder in Zn doped lithium niobate crystals

145. PUSTOZEROV A.V., RYABCHENOK V.Yu., SHANDAROV V.М.

Tomsk State University of Control Systems and Radioelectronics

An influence of incoherent background illumination on a sign of nonlinear optical response of a lithium niobate crystal

146. Galutskiy V.V., KUZORA V.F., Stroganova E.V.

Kuban State University, Krasnodar

Applying gradient PPLN:Er³⁺ to amplify the optical signals

147.   PIKOUL O.Yu., SIDOROV N.V.¹, TEPLYAKOVA N.А.¹, PALATNIKOV M.N.¹

Far Eastern State Transport University, Khabarovsk

¹I.V. Tananaev Institute of Chemistry and Technology of Rare Elements and Mineral Raw Materials of Kola Science Center of the RAS, Apatity, Murmansk region

Optical homogeneity of lithium niobate single crystals of congruent composition

148. DYU V.G., KISTENEVA M.G., SHANDAROV S.M., MOSHKINA M.D.

Tomsk State University of Control Systems and Radioelectronics

Optical absorption spectra of Bi₁₂TiO₂₀:Ca crystal exposed by sequential illumination to short- and long-wavelength radiation

149. IVANOVA A.I., TRETIAKOV S.A., SLOBODYANYUK K.A., TARGONIY A.A.

Tver State University

The influence of surface characteristics on the optical transmission of germanium single crystals

150. TRETIAKOV S.A., KAPLUNOV I.A., TARGONIY A.A., SLOBODYANYUK K.A.

Tver State University

The determination of the emissivity of germanium crystals with different roughness of surface

151. MOLCHANOVA A.D., BOLDYREV K.N.

Institute for Spectroscopy of the RAS, Troitsk

Narrow resonance lines in the terahertz spectra of the Cu₃B₂O₆ single crystal: nature and properties

152.   IVANOVA S.V.

Lebedev Physical Institute of the RAS, Moscow

Incommensurately phases in nanodomain crystal

153. KHUDYAKOVA E.S., SHANDAROV S.M., KISTENEVA M.G., DYU V.G., SMIRNOV S.V., KORNIENKO T.A.¹

Tomsk State University of Control Systems and Radioelectronics

¹Belarusian State University, Minsk

Thermoinduced changes in optical absorption in the undoped bismuth germanium oxide crystals

154. ANANYEV P.S., MARTYNOV I.L., OSIPOV E.V., DOVZHENKO D.S., CHISTYAKOV A.A.

National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

Temperature influence on optical properties of porous silicon microcavities

155. KOLESNIKOV A.I., KAPLUNOV I.A., LYAKHOVA M.B., TRETIAKOV S.A., AIDINYAN N.V.

Tver State University

Azimuthal maxima in indicatrices of light reflection by polished single crystal surfaces

156. ILINA E.A.¹, KHMELEV A.Yu., YURINA U.V.², SIDOROV A.I.^1,3

¹ITMO University, Saint Petersburg

²Peter the Great Saint-Petersburg Polytechnic University

³Saint-Petersburg State Electrotechnical University "LETI"

Optical information recording in LiF and KBr crystals by electron beam

157. .SOKOLENKO B.V, POLETAEV D.А., KOVALYOVA A.O., PETROV N.V.¹, SHEVKUNOV I.A.¹

V.I. Vernadsky Crimean Federal University, Simferopol

¹ITMO University, Saint Petersburg

Transformation of singular beam phase propagating in uniaxial crystal

158.   KOSTRITSKII S.M., KORKISHKO Yu.N., FEDOROV V.A.

RPC Optolink Ltd, Zelenograd

Electrooptic 1×2 switch based on channel waveguides in LiNbO₃ crystals

159. DYAKONOV E.A., POROKHOVNICHENKO D.L.

Lomonosov Moscow State University

Semicollinear regime of interaction of terahertz electromagnetic waves with ultrasound in paratellurite crystals

160. NIKITIN P.A.

Lomonosov Moscow State University

Quasi-orthogonal acousto-optic diffraction on vortex sound beam

161. AKIMOVA Ya.E., EGOROV Yu.A., HALILOV S.I.

V.I. Vernadsky Crimean Federal University, Simferopol

Experimental study of the disturbed beam Bessel-Gauss shaped cone of wave vectors that carry fractional topological charge

162. ISMAILOV I.A., LAPAYEVA S.N.

V.I. Vernadsky Crimean Federal University, Simferopol

Topological reaction to the distribution uniaxial crystal right-circular polarized optical quarks

163. KOVALYOVA A.O., RUBASS A.F., PETROV N.V.¹, SHEVKUNOV I.A.¹

V.I. Vernadsky Crimean Federal University, Simferopol

¹ITMO University, Saint Petersburg

Conversion angular momenta in a circularly polarized singular beam with fractional topological charge

164. KUZYAKOV B.A., Ivanov P.A., SKVORTSOV E.A., TIHONOV R.V.

Moscow Technological University (MIREA)

The quality of the passing laser beam in the perturbed atmosphere

165.   PLJONKIN A.P.

Southern Federal University, Taganrog

Detection of photon impulse of synchronization in quantum key distribution system

166. ZLOKAZOV E.Yu., KRASNOV V.V., NEBAVSKIY V.A., OSIPOV V.G.¹, SOLYAKIN I.V., STARIKOV R.S., CHERYOMKHIN P.A.

National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

¹Research Centre «Module», Moscow

Model of microwave sampling system

167. PETROV N.I., DANILOV V.A., POPOV V.V.¹, USIEVICH B.A.²

Scientific and Technological Center of Unique Instrumentation of the RAS, Moscow

¹Lomonosov Moscow State University

²Prokhorov General Physics Institute of the RAS, Moscow

Subwavelength diffractive gratings of visual range

168.   BOGACHKOV I.V., TRUKHINA A.I.

Omsk State Technical University

Increase of the detection efficiency of leak channels in optical fibers

169. KUZYAKOV B.A. Ivanov P.A., PLOSKIREV A.E., SKVORTSOV E.A.

Moscow Technological University (MIREA)

Perfection fiber-optical concordance unit for complex lines telecommunications

170. CHAYMARDANOV P.A.

Bonch-Bruevich Saint-Petersburg State University of Telecommunications

New design procedure for solving EDFA amplifier based on erbium-doped silica fiber

171. BOGACHKOV I.V., KOMPANEETS O.E.

Omsk State Technical University

Research of the Mandelstam – Brillouin backscattering in single-mode optical fibers with special profiles

172.   BOGACHKOV I.V.

Omsk State Technical University

Research of temperature dependences of Brillouin frequency shift in optical fibers of different types

173.   BOGACHKOV I.V.

Omsk State Technical University

Experimental research of Brillouin frequency shift from longitudinal stretching forces in optical fibers of different types

174. ROMASHCHUK Ye.V.

Siberian State University of Telecommunications and Informatics, Novosibirsk

Non-linear effects on far distances

 

 

 

Posters 2

Wednesday, Ferbuary 03, 2017, 12.00

 

175. DANILOV P.A.², KUDRYASHOV S.I.², LITOVKO E.P.^2,3, UMANSKAYA S.F.^1,2

¹National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

²Lebedev Physical Institute of the RAS, Moscow

³Moscow Institute of Physics and Technology (State University), Dolgoprudny

Reactive magnetron sputtering and research of metal-dielectric metasurfaces with epsilon-near-zero

176. VOITSEKHOVSKII A.V., KULCHITSKY N.A.¹, NESMELOV S.N., DZYADUKH S.M.

National Research Tomsk State University

¹Moscow Technological University (MIREA)

MIS structures based on graded-gap MBE HgCdTe for infrared detectors

177.   VOITSEKHOVSKII A.V., KULCHITSKY N.A.¹, NESMELOV S.N., DZYADUKH S.M.

National Research Tomsk State University

¹Moscow Technological University (MIREA)

Effect of illumination on admittance of MIS structure based on graded-gap MBE HgCdTe

178. KUZNETZOV P.I., AVERIN S.V., ZHITOV V.A., ZAKHAROV L.Yu., KOTOV V.M.

Fryazino Branch of Kotel’nikov Institute of Radioengineering and Electronics of RAS

Visible light photodetector on the base of ZnSe/ZnTe superlattice

179. IVANOV V.I., PERKOV Yu.O.

Far Eastern State Transport University, Khabarovsk

A photodetector based on the metal-ferroelectric-metal sandwich system

180.   Ganzherli N.M., Gulyaev S.N.¹, Maurer I.A.

Ioffe physical-technical institute of the RAS, Saint-Petersburg

¹Peter the Great Saint-Petersburg Polytechnic University

Creation of holographic structures on dichromated gelatin – organic polymer composite

181. MAHILNY U.V.¹, STANKEVICH A.I.¹, TROFIMOVA A.V.¹, BEZRUCHENKO V.S.^1,2

¹Belarusian State University, Minsk

²Institute of chemistry of new materials of NAS of Belarus, Minsk

Photoinduced planar LC alignment on the layers of benzaldehyde polymers containing long alkyl side chains

182. SHKURAK I.N.¹, SELYUKOV A.S.^1,2, VITUKHNOVSKY A.G.^1,2, ISAEV A.A.², KORSHUNOV V.M.^2,3, VASILIEV R.B.⁴

¹Moscow Institute of Physics and Technology (State University), Dolgoprudny

²Lebedev Physical Institute of the RAS, Moscow

³Bauman Moscow State Technical University

⁴Lomonosov Moscow State University

Photoinduced nonlinearity in colloidal solutions of planar and spherical CdSe nanocrystals

183. BOZHENKO M.V., RASIN A.B., CHUSOVITIN E.A., YAN D.T.¹

Institute of Automation and Control Processes of FEB RAS, Vladivostok

¹Far Eastern State Transport University, Khabarovsk

Photoluminescence properties of porous silicon formed on the plasma-treated substrate

184. SOLOVEY V.R.¹, SELYUKOV A.S.^1,2, VITUKHNOVSKY A.G.^1,2, VASILIEV R.B.³, LAZAREVA E.P.³

¹Moscow Institute of Physics and Technology (State University), Dolgoprudny

²Lebedev Physical Institute of the RAS, Moscow

³Lomonosov Moscow State University

Photophysical properties of planar CdTe nanocrystals in electric field

185. ASADULLINA A.R.¹, KHARINCEV S.S.^1,2

¹Kazan Federal University

²Intitute of Perspective Researches of Tatarstan Academy of Sciences, Kazan

Photoinduced surface deformation of azopolymer thin films

186. KOMISSAR D.A.¹, SELYUKOV A.S.^1,2, VITUKHNOVSKY A.G.^1,2, VASILIEV R.B.³, KUROCHKIN N.S.^1,2, SOLOVEY V.R.¹

¹Moscow Institute of Physics and Technology (State University), Dolgoprudny

²Lebedev Physical Institute of the RAS, Moscow

³Lomonosov Moscow State University

Förster energy transfer in organic light-emitting diode based on CdSe planar nanocrystals

187. KISLOV D.A.

Orenburg State University

Modeling of Graetzel solar cells with plasmonic silver nanoparticles

188. ONISCHUK S.A., MURADOVA A.S.

Kuban State University, Krasnodar

Study of degradation of silicon solar cells at irradiation by protons

 

189.   IVANOV V.I., IVANOVA G.D.

Far Eastern State Transport University, Khabarovsk

Concentration switching wave in nanofluids, located in a light field

190. KOLCHIN A.V., PUGACHEV D.Yu., TKACHENKO N.B., EFIMOVA A.I., ZABOTNOV S.V., GOLOVAN L.A.

Lomonosov Moscow State University

Effective diffuse light scattering by silicon nanowire massives

191. KUCHERENKO M.G., KISLOV D.A.

Orenburg State University

Plasmon-activated intermolecular radiationlees energy transfer in spherical nanoreactors

192. KONSTANTINOVA E.I.^1,2, MATVEEVA K.I.¹, BRYUKHANOV V.V.¹

¹Immanuel Kant Baltic Federal University, Kaliningrad

²Kaliningrad State Technical University

Exciton-plasmon interaction CdZnSZnS and CdZnSeS quantum dots with silver nanopaticles in polymethylmethacrylate film

193. IVANOVA G.D., KIRJUSHINA S.I., MJAGOTIN A.V.

Far Eastern State Transport University, Khabarovsk

Dynamic holograms efficiency in a nanosuspension

194.   KUCHERENKO M.G., NALBANDYAN V.M.

Orenburg State University

The structure of the near-field layered nanocylinder with a magnetized metal cord and excitonogeneous shell

195.   EGORYSHEVA A.V.¹, DUDKINA T.D., GAITKO O.M.¹, RUDNEV P.O.^1,2

National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

¹Kurnakov Institute of General and Inorganic Chemistry of the RAS, Moscow

²Lomonosov Moscow State University

Vibrational spectra of Bi_1.8Fe_1.2(1-x)Ga_1.2xSbO₇ solid solutions with pyrochlore structure

196. RUSINOV A.P., KUCHERENKO M.G., GORSHKOV A.V.

Orenburg State University

Incoherent absorption saturation solutions of photoactive molecules in the presence of metallic nanoparticles

197. VOLKOVA O.I., BARANOV A.N.

Lomonosov Moscow State University

Changes in the degree of dissociation dyes in AOT reverse micelles in heptane

198.   Ovechenko D.S., Boychenko A.P.

Kuban State University, Krasnodar

Localization electrochemiluminescence on an aluminum anode with dielectric coatings

199. DMITRIEVA M.D.¹, KHARINCEV S.S.^1,2, ALEKSEEV A.M.³, FISHMAN A.I.¹, SALAKHOV M.Kh.^1,2

¹Kazan Federal University

²Intitute of Perspective Researches of Tatarstan Academy of Sciences, Kazan

³Nazarbaev University, Astana, Kazakhstan

Visualization of optical near fields with photosensitive azo-polymers

200.   CHERNYKH E.A.¹, KHARINCEV S.S.^1,2, ALEKSEEV A.M.³, FISHMAN A.I.¹, SALAKHOV M.Kh.^1,2

¹Kazan Federal University

²Intitute of Perspective Researches of Tatarstan Academy of Sciences, Kazan

³Nazarbaev University, Astana, Kazakhstan

A study of glass transition temperature of free-standing and supported
azo-polymer films with atomic force microscopy

201. KOTLIKOV E.N., NOVIKOVA Ju.A., IURKOVETS E.V.

State University of Aerospace Instrumentation, Saint Petersburg

Measurement optic constants of CaY₂F₈ film

202. TIKHOMIROVA N.S.^1,2, SLEZHKIN V.A.^1,2, ZYUBIN A.Yu.¹, BRYUKHANOV V.V.¹

¹Immanuel Kant Baltic Federal University, Kaliningrad

²Kaliningrad State Technical University

Plasmonic enhancement of fluorescence and Raman scattering the eosin molecules on anodized aluminum doped with silver nanoparticles

203. ISMAGILOV A.O., ANDREEVA N.V., ANDREEVA O.V.

ITMO University, Saint Petersburg

Research of optical heterogeneity of nanoporous silicate matrices

204. CHERNOV A.I.^1,2, FEDOTOV P.V.², OBRAZTSOVA E.D.^1,2

¹National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

²Prokhorov General Physics Institute of the RAS, Moscow

Adjustment of single-walled carbon nanotubes optical properties via graphene nanoribbons encapsulation

205. MOLCHANOVA A.D., MOSHKINA E.M.¹, BOLDYREV K.N.

Institute for Spectroscopy of the RAS, Troitsk

¹Kirensky Institute of Physics of SB RAS, Krasnoyarsk

Investigation of magnetic phase transitions in multi-sublattice magnet Cu_xMn_1-xB₂O₄ by optical polarization spectroscopy

206. KOZLOVA D.A., IVANOV S.A., PICHUGIN I.S.

ITMO University, Saint Petersburg

Influence of rare earth activator concentration on the dynamics of the plasmon resonance band in photo-termo-refractive glass

207. CHERNAKOV D.I.¹, SIDOROV A.I.^1,2, STOLYARCHUK M.V.¹

¹ITMO University, Saint Petersburg

²Saint-Petersburg State Electrotechnical University "LETI"

Creating a luminescent waveguide in photo-thermo-refractive glass by UV radiation

208. KRYKOVA V.A., IVANOV S.A., DUBROVIN V.D.

ITMO University, Saint Petersburg

Holographic properties on chloride photo-thermo-refractive glass

209. BABKINA A.N., TROTS K.I., NIKONOROV N.V.

ITMO University, Saint Petersburg

Color centers formation in borate glasses with CuCl nanocrystals under UV irradiation

210. STOLYARCHUK M.V.¹, KOCHETKOV P.V.¹, SIDOROV A.I.^1,2

¹ITMO University, Saint Petersburg

²Saint-Petersburg State Electrotechnical University "LETI"

AB INITIO calculations of optical properties of Ag-Cu molecular clusters in phosphate glasses

211. GORBYAK V.V.¹, SIDOROV A.I.^1,2

¹ITMO University, Saint Petersburg

²Saint-Petersburg State Electrotechnical University "LETI"

Multilevel optical information recording in silver-containing glasses

212. KOBRANOVA A.A.¹, SIDOROV A.I.^1,2

¹ITMO University, Saint Petersburg

²Saint-Petersburg State Electrotechnical University "LETI"

Sensitive element temperature sensing based on glass with Eu and molecular clusters Ag

213. TCIBULNIKOVA A.V.^1,2, MYSLITSKAYA N.A.^1,2, SLEZHKIN V.A.^1,2, BRYUKHANOV V.V.¹, ZEMLYAKOVA E.S.¹

¹Immanuel Kant Baltic Federal University, Kaliningrad

²Kaliningrad State Technical University

Interaction between plasmon of silver nanoparticles of different origin and bovine serum albumin molecules

214. FATKHUTDINOVA L.I., NEPOMNYASCHAYA E.K., VELICHKO E.N., AKSENOV E.T.

Peter the Great Saint-Petersburg Polytechnic University

Study of magnetic fluids by the method of polarimetry

215. SAVCHENKO E.A., NEPOMNYASCHAYA E.K., DUBO D.B., VELICHKO E.N., TSYBIN O.Yu.

Peter the Great Saint-Petersburg Polytechnic University

New method of registration of fluorescence in biomolecular liquids

216.   KUZMINA T.B., ANDREEVA N.V., ANDREEVA O.V.

ITMO University, Saint Petersburg

Analysis of the parameters of biological fluids by dynamic light scattering method

217.   KIRJUSHINA S.I., MJAGOTIN A.V.

Far Eastern State Transport University, Khabarovsk

Nonlinear optical diagnostics of nanoliquides

218. LIVASHVILI A.I., KRISHTOP V.V., KOSTINA G.V., LIKHOVODOVA T.B.

Far Eastern State Transport University, Khabarovsk

The dynamics of the thermal conductivity of nanoliquid in a light field

 

 

 

Posters 3

Thursday, Ferbuary 03, 2017, 15.00

 

219.   AVERBUKH B.B., AVERBUKH I.B.

Pacific State University, Khabarovsk

Propagation of plane S- polarized electromagnetic waves in a cylindrical nanorod and nanotube

220.   KARTSEV P.F., KUZNETSOV I.O.

National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

Taking into account the polariton-phonon interaction for the simulation of the Bose gas thermalization process

221.   BICHKOV A.B., KOZHINA A.S., MITYUREVA A.A., SMIRNOV V.V.

Saint Petersburg State University

Modification of the trajectory method for evaluation the probability of multiphoton ionization

222. KHALYAPIN V.A., BUGAY A.N.¹

Kaliningrad state technical university

¹Joint institute of nuclear researches, Dubna

Photoionization and suppression of intrapulse Raman scattering

223. HOPERSKY A.N., NADOLINSKY A.M., KONEEV R.V.

Rostov State Transport University, Rostov-on-Don

Merging of X-ray photons in an atomic ion field

224. ASTASHKEVICH S.A.

Saint Petersburg State University

Information entropy for high excited vibrational states of lithium dimer isotopologues

225.   MAKIN V.S., MAKIN R.S.¹

Scientific Research Institute for Optoelectronic Instrument Engineering, Sosnovy Bor, Leningrad region

¹Dimitrovgrad Engineering and Technological Institute of the NRNU MEPHI, Ulyanovsk region

About quartz glass damage model by ultrafast radiation

226. DOBRINA D.A., VEIKO V.P., LEBEDEVA E.V., SINEV D.А.

ITMO University, Saint Petersburg

Alumosilicate thin-walled laser-induced sphere: experimental study of process formation's kinetics

227. OREKHOV I.O., DVORETSKIY D.A. SAZONKIN S.G., KUDELIN I.S., PNEV A.B., KARASSIK V.E., DENISOV L.K.

Bauman Moscow State Technical University

Generation and propagation peculiarities of femtosecond pulses in an all-fiber erbium-doped ring laser with a highly nonlinear resonator

228. KROLEVETS O.S., LEVITSKIY M.E.¹

National Research Tomsk Polytechnic University

¹TOPAZ Ltd, Tomsk

The experimental installation for forming the intensity distribution using the phase control in a multichannel system of fiber lasers

229. RYABCHUK S.V.¹, GONCHAROV S.A.¹, MOKROUSOVA D.V.², SELEZNEV L.V.², SUNCHUGASHEVA E.S.², USTINOVSKII N.N.², SHUTOV A.V.², ZVORYKIN V.D.^1,2

National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

¹Lebedev Physical Institute of the RAS, Moscow

Suppression of multiple filamentation of the sub-TW peak power UV laser beam in xenon

230. GONCHAROV S.A.¹, RYABCHUK S.V.¹, SHUTOV A.V.², ZVORYKIN V.D.^1,2, SUNCHUGASHEVA E.S.², MOKROUSOVA D.V.²

National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

¹Lebedev Physical Institute of the RAS, Moscow

Regularization of UV multiple filamentation in air by method of amplitude masks

231.   MAKIN V.S., MAKIN R.S.¹

Scientific Research Institute for Optoelectronic Instrument Engineering, Sosnovy Bor, Leningrad region

¹Dimitrovgrad Engineering and Technological Institute of the NRNU MEPHI, Ulyanovsk region

Laser radiation filamentation in transparent condensed media and volume gratings formation

232. NIKOLAEV D.A.², TSVETKOV V.B.^1,2, SHAMATOVA A.I.^1,2

¹National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

²Prokhorov General Physics Institute of the RAS, Moscow

ND:GGG disk laser with three-beam diode pumping

233. IONIN A.A.¹, KINYAEVSKIY I.O.¹, KLIMACHYOV Yu.M.¹, KOZLOV A.Yu.¹, KOTKOV A.A.¹, STEPANISHCHEV V.V.², KHAFIZOV I.Zh.²

Lebedev Physical Institute of the RAS, Moscow

¹National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

Spectral structure of sum frequency generation of multiline carbon monoxyde laser in ZnGeP₂ crystal

234. GALUSHKIN M.G., YAKUNIN V.P., DYACHKOV R.G.¹

Institute on Laser and Information Technologies – branch of FSRC “Crystallography and Photonics” of the RAS, Shatura

¹Bauman Moscow State Technical University

Influence of saturation of diode pump radiation absorption in YAG:Yb⁺³ crystal on parameters of planar waveguide lasers

235.   KOZLOVSKII K.I., KOTKOVSKII G.E., MITYAGIN Yu.A.¹, PIRYAZEV I.N., PLEKHANOV A.A., CHISTYAKOV A.A.

National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

¹Lebedev Physical Institute of the RAS, Moscow

Stand on the basis of femtosecond laser and a Michelson interferometer for the study of THz radiation of photoconductive antennas

236. AKMALOV A.E., KOZLOVSKII K.I., KOTKOVSKII G.E., PIRYAZEV I.N., PLEKHANOV A.A., CHISTYAKOV A.A.

National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

THz spectrum based on photoconductive antennas and band resonant THz filters

237.   GANIN D.V.^1,2, LAPSHIN K.E.², OBIDIN A.Z.², VARTAPETOV S.K.²

¹National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

²Prokhorov General Physics Institute of the RAS, Moscow

Single pulse perforating of thin transparent dielectrics by femtosecond lasers

238. AKOVANTSEVA A.A., YUSUPOV V.I., RYBALTOIVSKII A.O.¹

Institute of Photonic Technologies – branch of FSRC “Crystallography and Photonics” of the RAS, Troitsk

¹Lomonosov Moscow State University

Features of formation of structures under the influence of continuous and pulsed laser radiation in the films of thermostable polymers

239. SMIRNOV V.V., ALYKOVA O.M., BEZNISKO E.I., KURAMSHIN K.V.

Astrakhan State University

Optimization of the structure and parameters of monocrystal films of ferrite-garnets under the challenges of applied optoelectronics

240. POLTAEV Yu.A., SERGEEV M.M., ZAKOLDAEV R.A., KOVAL V.V.

ITMO University, Saint Petersburg

Densification inside of porous glass by ultra-short laser pulses

241. KOVAL V.V., SERGEEV M.M., ZAKOLDAEV R.A., RYMKEVICH V.S., POLTAEV Yu.A.

ITMO University, Saint Petersburg

Fabrication of phase gratings by laser microplasma for interference schemes of micromachining

242. BAZZAL Kh., FADAIJAN А.Р., VOROPAY E.S., ZAJOGIN А.P.

Belarusian State University, Minsk

Investigation into the formation processes of aluminum nitride in the plasma depending on the incidence angle of double laser pulses onto the target of D16T aluminum alloy in the air

243.   KOZLOVSKII K.I., MELEKHOV A.P.

National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

Generation of terahertz radiation by plasma of laser triggered vacuum spark

244. KUSHVARA D.A., PLIVAK S.A., SHUMILIN A.S.

Southern Federal University, Taganrog

Cooling system the metal-vapor lasers

245. ROGOZHNIKOV G.S., ROMANOV V.V., MISHINA I.V.

All-Russian Research Institute of Experimental Physics, Sarov, Nizhny Novgorod region

Application of picosecond streak-camera for ultra-short laser pulse diagnostics in multichannel laser facilities

246. SMIRNOV A.A., GAZIZOV I.M., OLNEV A.A., FEDORKOV V.G., KAPLUNOV I.A.¹

National Center of Laser Systems and Complexes Astrophysika, Moscow

¹Tver State University

Measuring performance CZT detectors in optical excitation of charge carriers with the ability to scan a light beam

247. SCHELEV M.Ya., MESHKOV O.I.¹, VERESCHAGIN A.K.

Prokhorov General Physics Institute of the RAS, Moscow

¹Budker Institute of Nuclear Physics of SB RAS, Novosibirsk

Development, calibration and application of new-generation picosecond dissector

248. BELUKHINA Yu.Yu., LYUBIMOV. A.I.¹, ROGOZHNIKOV G.S.², ROMANOV V.V.²

Sarov State Physics and Technical Institute NRNU MEPHI, Nizhny Novgorod region

¹State Institute of Applied Optics, Kazan

²All-Russian Research Institute of Experimental Physics, Sarov, Nizhny Novgorod region

Optimization of stretcher and compressor parameters for multichannel petawatt laser facility

249. ROGOZHIN M.V.¹, ROGALIN V.E.^2,3, KRIMSKY M.I.^1,2

¹Moscow Institute of Physics and Technology (State University), Dolgoprudny

²National Center of Laser Systems and Complexes Astrophysika, Moscow

³Tver State University

Two-component output windows in high-power laser systems

250. DUDOVA D.S.^1,2, BARDAKOVA K.N.¹, HOLHOEV B.Ch.³, FARION I.A.⁴, OCHIROV B.D.⁴, BURDUKOVSKIJ V.F.⁴, TIMASHEV P.S.¹, MINAEV N.V.¹

¹Institute of Photonic Technologies, – branch of FSRC “Crystallography and Photonics” of the RAS, Troitsk

²National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

³Buryat State University, Ulan-Ude

⁴Baikal Institute of Nature Management SB of RAS, Ulan-Ude

Fabrication of three-dimensional structures based on termostable heterochain polymer compositions by laser stereolithografy

251.   LYUBIMOV. A.I.¹, ROMANOV V.V.

All-Russian Research Institute of Experimental Physics, Sarov, Nizhny Novgorod region

¹State Institute of Applied Optics, Kazan

Optimization of energy characteristics of dielectric diffraction gratings for laser pulse compression

 

 

252.   GALUSHKIN M.G.

Institute on Laser and Information Technologies – branch of FSRC “Crystallography and Photonics” of the RAS, Shatura

Efficiency of laser beam utilization in gas laser cutting of materials

253. YAKUNIN V.P., GRIGORIANTZ A.G.¹, FUNTIKOV V.A.¹

Institute on Laser and Information Technologies – branch of FSRC “Crystallography and Photonics” of the RAS, Shatura

¹Bauman Moscow State Technical University

Generation characteristics of single-mode laser diodes virtual and real bars at beams spectral incoherent combining in stable resonators with diffraction grating

254. ROGOV Р.Yu., PUTILIN S.E., NALEGAEV S.S., CHANG C.-J.¹, BESPALOV V.G.

ITMO University, Saint Petersburg

¹National Taiwan Normal University, Taipei, Taiwan

Interaction of femtosecond laser radiation with human skin: experimental confirmation of the mathematical model

255.   FARRAKHOVA D.S.¹, MAKAROV V.I.², LOSCHENOV V.B.^1,2

¹National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

²Prokhorov General Physics Institute of the RAS, Moscow

Evaluation of healing skin grafts with using aluminum phthalocyanine nanoparticles and indocyanine green by laser spectroscopic methods

256.   Malov A.N., novikova E.A.¹, vaychas a.a.²

Air Force Academy named after prof. N.E. Zhukovsky and Yu.A Gagarin, Voronezh

¹Scientific Centre for Family Health and Human Reproduction Problems, Irkutsk

²Irkutsk branch of Moscow state technical university of civil aviation

The mechanism of laser radiation action on a mineralization of the human bile preparations

257. SHAROVA A.S. ¹, MACLYGINA Ju.S.², ROMANISHKIN I.D.², LOSCHENOV V.B.^1,2

¹National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

²Prokhorov General Physics Institute of the RAS, Moscow

The study of molecular bacteriochlorin nanocrystals as agents for hyperthermia therapy of malignant neoplasms

258. TIMCHENKO E.V., TIMCHENKO P.E., ZARUBINA E.G., BURENKOV E.S., ASADOVA A.A., ITYAKSOV Yu.D.

Samara National Research University

Research of effectiveness of the staphylococcal infections treatment in the tonsils using Raman spectroscopy

259. LYKINA А.А., ARTEMYEV D.N., BRATCHENKO I.А., KHRISTOFOROVA Ju.А., MYAKININ О.О., KUZMINA T.P.¹, DAVYDKIN I.L.¹, ZAKHAROV V.P.

Samara National Research University

¹Samara State Medical University

Analysis of human biofluids with different concentrations by Raman spectroscopy method

260. TIMCHENKO P.E., TIMCHENKO E.V., DOLGYSHKIN D.A.¹., VOLOVA L.T.¹, ASADOVA A.A., FEDOROVA Ya.V., PRAVEDNIKOV S.I.

Samara National Research University

¹Samara State Medical University

Study of structural features of the rat bone tissue using Raman spectroscopy

261. TIMCHENKO E.V., TIMCHENKO P.E., VOLOVA L.T.¹, DOLGYSHKIN D.A.¹., MARKOVA M.D., YAGOFAROVA E.F.

Samara National Research University

¹Samara State Medical University

Analysis of joint fluid using Raman spectroscopy

262. SHAMINA L.A., BRATCHENKO I.А., ARTEMYEV D.N., MYAKININ О.О., MORYATOV A.A.¹, KOZLOV S.V.¹, ZAKHAROV V.P.

Samara National Research University

¹Samara State Medical University

Raman and fluorescence spectroscopy of human body fluids for cancers detection

263. TIMCHENKO P.E., TIMCHENKO E.V., VOLOVA L.T.¹, DOLGYSHKIN D.A.¹., FROLOV О.О., MESHCHERYAKOV V.D., BALMASOV A.V.

Samara National Research University

¹Samara State Medical University

Optical evaluation of changes in the composition of bone implants during processing

264. TIMCHENKO E.V., TIMCHENKO P.E., VOLOVA L.T.¹, SHALKOVSKAYA P.Yu., TRAPEZNIKOV D.S.

Samara National Research University

¹Samara State Medical University

Spectrum analysis of structural change of heart valves for various stages of their decellularization

 

 

 

Posters 4

Thursday, Ferbuary 03, 2017, 15.00

 

265. PERESKOKOV V.S., GORISHNIY V.A., DZEDOLIK I.V.

V.I. Vernadsky Crimean Federal University, Simferopol

Control of plasmon-polariton vortices

266. MAKAROV V.A., PETNIKOVA V.M., RYZHIKOV P.S., SHUVALOV V.V., YADVICHUK A.V.

Lomonosov Moscow State University

Elliptically polarized breather in nonlinear isotropic gyrotropic medium

267. SKOBNIKOV V.A., GORODETSKY A.A.^1,2, KULYA M.S.

ITMO University, Saint Petersburg

¹Lancaster University, Birmingham, United Kingdom

²Cockcroft Institute, Cheshire, United Kingdom

Numerical simulation of the spatial coherence of optical rectification based pulsed terahertz emitter

268. ALEXEYEV C.N., BARSHAK E.V., YAVORSKY M.A.

V.I. Vernadsky Crimean Federal University, Simferopol

Higher-order resonance modes of twisted anisotropic fibers

269.   ZOLOTOVSKII I.O., LAPIN V.A., SEMENTSOV D.I.

Ulyanovsk State University

Modulation instability of wave packets through an inhomogeneous fiber

270.   KOVALYOVA A.O., ALEXEYEV C.N., RUBASS A.F., PETROV N.V.¹, SHEVKUNOV I.A.¹

V.I. Vernadsky Crimean Federal University, Simferopol

¹ITMO University, Saint Petersburg

Evolution of light in a circular array of optical fibers

271. HALILOV S.I., IBRAGIMOV A.E., RUBASS A.F., AKIMOVA Ya.E.

V.I. Vernadsky Crimean Federal University, Simferopol

Modeling your own mode composition of the radiation of the fibers at V=3.8

272.   Vekshin M.M., Nikitin V.A., Yakovenko N.A.

Kuban State University, Krasnodar

Physical-mathematical modeling of fabrication technology of two-layer waveguides structures in glass

273. BEZPALY A.D., SHANDAROV V.М.

Tomsk State University of Control Systems and Radioelectronics

Optical formation of waveguide elements in lithium niobate with photorefractive surface layer

274.   Vekshin M.M., Yakovenko N.A.

Kuban State University, Krasnodar

Integrated-optic polarization converter based on glass waveguide mode evolution

275. VORZOBOVA N.D., SOKOLOV P.P., VESELOV V.O.

ITMO University, Saint Petersburg

Formation and properties of hybrid periodic structures

276. ANOKHINA M.A.^1,2, MENSOV S.N.^1,2, POLUSHTAYTSEV Yu.V.²

¹Lobachevsky State University of Nizhny Novgorod

²Razuvaev Institute of Organometallic Chemistry of RAS, Nizhny Novgorod

Use of non-stationary light to create 2D structures in the photopolymerizable layer

277.   GADOMSKY O.N., SHCHUKAREV I.A.

Ulyanovsk State University

Increase in efficiency of colored light-emitting diodes by a nanostructural composite layer PMMA+Ag

278.   CHERNIAK M.E.^1,2, MOZHAEV R.K.¹, STAKHARNIY S.A.³, MERKULOV A.V.³

¹National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

²Specialized Electronic Systems, Moscow

³JSC "CRI "Cyclone", Moscow

Research of radiation tolerance of OLED-diodes to gamma-ray and neutron impact

279. SAKHAROV V.K.

“VOSPI Centre” Ltd, Moscow

Multimode semiconductor laser gyro – principle of operation

280. Komotskii V.A., SOKOLOV Yu.M., Suetin n.v.

Peoples’ Friendship University of Russia, Moscow

Modulator of laser radiation based on corner reflector and deep diffraction grating

281.   SHAULSKY D.V.

All-Russian Research Institute of Automatics, Moscow

Node fiber-optic wiring multichannel laser generator

282. KAMENEV O.T., PETROV Yu.S., KHIZNYAK R.V., KOLCHINSKIY V.A.

Institute of Automation and Control Processes of FEB RAS, Vladivostok

Detection of weak seismic waves by fiber-optic interferometric seismometers

283. GORYACHEV L.V., MARININ A.A.

Sarov State Physics and Technical Institute NRNU MEPHI, Nizhny Novgorod region

Diffraction of light and the problem of laser beams apodization

284. VORONTSOV E.N.¹, EFIMOVA K.V.^1,2, KOTOVA S.P.^1,2, LOSEVSKY N.N. A.A.¹, PROKOPOVA D.V.^1,2

¹Samara Branch of the Lebedev Physical Institute

²Samara National Research University

Compact unit for demonstration of spiral light beams

285. Volcov V.G.

Bauman Moscow State Technical University

Pseudonocardia night vision goggles for operation in the spectral range of 0.9 to 1.7 mkm

286. KAVALENKA S.A.

Belarusian State University, Minsk

Visible range spectroscopy for IN SITU research area

287. RAZUVAEV A.E., SHVEDOVA O.V., TUGAENKO V.Yu.

S.P. Korolev Rocket and Space Corporation Energia, Korolev

High-performance photovoltaic receiver of laser radiation for wireless power transfer

288. Volcov V.G.

Bauman Moscow State Technical University

Underwater television monocular with remote transmission image

289. EMELIANOV V.M., LENTOVSKII V.V., FEDOROV D.L.

Baltic State Technical University «VOENMEH» named after D.F. Ustinov, Saint-Petersburg

Passive method of measurement range

290. VOLOSTNIKOV V.G.¹, KISHKIN S.A.², KOTOVA S.P.^1,3

¹Samara Branch of the Lebedev Physical Institute

²Krasnodar Higher Military School

³Samara National Research University

Coherent optics for recognition of contour images

291. BYSHEVSKI-KONOPKO O.A., PROKLOV V.V., LUGOVSKOI A.V., KORABLEV E.M.

Fryazino Branch of Kotel’nikov Institute of Radioengineering and Electronics of RAS

The software algorithm of linear spectral unmixing in hyperspectral imaging using multiband acousto-optic filters

292. GULIS I.M., KUPREYEU A.G.

Belarusian State University, Minsk

Image monochromators based on dispersive spectral filtering

293. MAKSIMOVA L.A.¹, RYABUKHO P.V.^1,2, MYSINA N.Yu.¹, RYABUKHO V.P.^1,2

¹Institute of Precision Mechanics and Control of the RAS, Saratov

²Saratov National Research State University

Determination of sub-pixel microdisplacements of speckle-structures based on phase analysis of their spatial spectrum

 

 

 

294.   POLETAEV D.А., SOKOLENKO B.V, KOVALYOVA A.O., PETROV N.V.¹, SHEVKUNOV I.A.¹

V.I. Vernadsky Crimean Federal University, Simferopol

¹ITMO University, Saint Petersburg

Application of speckle interferometry in archaeological research

295. DYOMIN V.V., POLOVCEV I.G., KAMENEV D.V., KOZLOVA A.S., OLENIN A.L.¹

National Research Tomsk State University

¹P.P. Shirshov Institute of Oceanology, Moscow

Approbation of hardware and software complex for plankton investigation in natural water reservoir

296.   GONCHAROV D.S., PETROVA E.K., PONOMAREV N.M., STARIKOV R.S., SHAULSKY D.V.

National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

Synthesis and investigation of invariant maximum average height correlation filter

297. DENISOV D.G., NAGOVITSYN V.V., MENDELEEV V.Ya.¹

Bauman Moscow State Technical University

¹Prokhorov General Physics Institute of the RAS, Moscow

A comparative analysis of optoelectronic systems for remote control of parameters of complex-forms technological products

298. AVLASEVICH N.T., Buts A.I., Lyalikov A.M.

Janka Kupala State University, Grodno, Belarus

Interferometer for measuring control of periodic microstructures

299. DENISOV D.G., DGUMAMURATOVA A.A., LARICHEV A.V.¹, MARTYNOVA D.A.

Bauman Moscow State Technical University

¹Lomonosov Moscow State University

Method and optoelectronic device controlling intraocular lens options

300. RYABOV K.D., MYAKININ О.О., GUSEINOV A.Yu.¹, ZAKHAROV V.P., KHRAMOV A.G.

Samara National Research University

¹Branchevsky Eye Clinic, Samara

An active sphere method for 3D OCT images segmentation

301. MENSOV S.N.^1,2, POLUSHTAYTSEV Yu.V.²

¹Lobachevsky State University of Nizhny Novgorod

²Razuvaev Institute of Organometallic Chemistry of RAS, Nizhny Novgorod

Using space-frequency filtering to increase the depth of field of the projection system

302.   Buts A.I., Lyalikov A.M.

Janka Kupala State University, Grodno, Belarus

Increase of sensitivity measurements of residual wedging transparent substrates of diffractive optical elements

303. KOLYUCHKIN V.V., ODINOKOV S.B.

Bauman Moscow State Technical University

The method of indirect measurements of security hologram parameters considering the influence of diffraction gratings relief distortion

304. AUNG M.W., RINKEVICHYUS B.S., PAVLOV I.N.

National Research University "Moscow Power Engineering Institute"

Visualization of shape and deformation of rough surface by structured optical radiation

305. GONCHAROV D.S., KRASNOV V.V., PONOMAREV N.M., Starikov R.S.

National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

¹ITMO University, Saint Petersburg

Measurement of phase modulation of amplitude LC SLM by dual-beam interferometric method

306. BARYSHNIKOV N.V., DENISOV D.G., KARASSIK V.E., MOROZOV A.B.¹, PATRIKEEV V.E.¹, SULEYMANOV G.M.¹

Bauman Moscow State Technical University

¹Lytkarino Optical Glass Factory, Moscow region

The precise method for measuring the RMS of the wavefront of laser radiation at the control surface inhomogeneties of nanometer-level profiles of optical details

307.   EVTIKHIEV N.N., KRASNOV V.V., SHIFRINA A.V.

National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

Methods of evaluation of visual concealment of encoded images in schemas of optical image encryption

308. BALBEKIN N.S., KULYA M.S., TUROV A.T., PETROV N.V.

ITMO University, Saint Petersburg

Wavefront transfer function modification for dispersion accounting in the digital terahertz pulsed time domain holography

309.   KULAKOV M.N., Starikov R.S., CHERYOMKHIN P.A.

National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

Compressed sensing for digital holography

310. ISMANOV Yu.H., ISMAILOV D.A., ZHUMALIEV K.M., ALYMKULOV S.A.

Institute of Physical-Technical Problems and Material Science of NAS KR, Bishkek, Kyrgyz republic

Self-reproduction effect in holography

311.   KURBATOVA E.A., CHERYOMKHIN P.A.

National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

Methods of compression of digital holograms by wavelet transforms

312. KATEROVA S.S., KRASNOV V.V., KURBATOVA E.A., MOLODTSOV D.Yu., CHERYOMKHIN P.A., RODIN V.G.

National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

Development of digital holograms compression methods using error diffusion

313. VOVK T.A., PETROV N.V.

ITMO University, Saint Petersburg

Application of digital phase conjugation in the problem of optical wave field formation

314. MINAEVA E.D., KRASNOV V.V., CHERYOMKHIN P.A., RODIN V.G.

National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

Analysis of efficiency of direct search with random trajectory method applied to the task of kinoform synthesis error minimization