Research-Educational Centers and Laboratories Head of the Department

Research-Educational Centers and Laboratories Head of the Department Professor S. A. Kozlov

The Center is founded at Photonics and Optoinformatics Department for carrying out basic and applied research in femtosecond optics and femtotechnologies, and also for carrying out studies in disciplines «Optical technologies of transfer, recording and information processing» and «Basics of femtosecond optics and femtotechnology» and for preparation of the highly qualified experts with good job opportunities at a labour market. The Center is equipped with 5 femtosecond lasers: two Yb: KYW lasers = 1038 nm with 120 fs pulse duration and 1. 5 W average power; femtosecond system with Ti: sapphire = 800 nm master oscillator (20 fs, 1 n. J, 100 MHz repetition rate) and 8 -pass CPA amplifier (35 fs, up to 2 m. J, 50 Hz); Ti: sapphire master oscillator (50 fs, 6 n. J, 100 MHz repetition rate); Er: fiber laser system = 1560 nm and 780 nm. There are power meters, autocorrelators, spectrometers, etc. RESEARCH-EDUCATIONAL CENTRE FOR FEMTOSECOND OPTICS AND FEMTOTECHNOLOGIES CO-HEADS OF THE CENTRE V. G. BESPALOV AND S. A. KOZLOV

A lot of practical work for students in the framework of course «Basic of femtosecond optics and femtotechnology» — «Major parameters measurements of femtosecond lasers» ; «Spectral continuum generation in microstructure fiber» , «One-cycle THz pulse radiation from In. As crystal in magnetic field irradiated by femtosecond IR pulse» is organized. 2 doctors of sciences, 5 candidates of sciences, 6 post-graduate students and more than 20 bachelors and masters carry out research in the Centre.

Research group in THz optics

1 2 4 35 6 789 10 1 — femtosecond laser (P = 100 m. W), 2, 4 — mirrors, 3 — lens, 5 — mechanical modulator, 6 — crystal In. As in a magnetic field, 7, 9 — parabolic mirrors, 8 — filter, 10 – optoacoustic detector Options: • P = 5 W • 0, 1 ÷ 2 THz • B = 2, 4 T Measuring range: • transmission coeff. 0. 1 ÷ 100% • optical density, D, 0 ÷ 3 • Receiver sensitivity 1 n. W • Dimensions, mm, 800 x 400 x 140 Terahertz photometer TP-

Collaboration with Krasnodar branch of the Federal MST «Eye Microsurgery» ( Usov A. V. ) THz transmission spectra of cataract human lens in vitro (h=1. 5 mm)

HEAD OF THE RESEARCH GROUP S. A. KOZLOV, V. A. TRUKHIN CO-HEAD OF THE RESEARCH GROUP A. N. TSYPKIN, A. A. DROZDOV System of transmitting information at speeds in excess of 10 Tbit/s Research group in optical systems of ultrafast transmitting information

The Center develops modern solutions for telecommunication technologies using nano-structured materials with electromagnetic properties which are not available in natural media. The special attention is paid to development of subwavelength imaging techniques, theoretical studies related to homogenization issues and chemical methods of meta- and nano-materials manufacturing. The applications of metamaterials developed by the center range from modern medical imaging techniques to microscopy and nanolithography. The Centre supports the discipline «Modern applications of plazmonic and nanotechnologies» RESEARCH-EDUCATIONAL CENTRE « NANOSTRUCTURES AND METAMATERIALS FOR INFORMATION PROCESSING TRANSMISSION AND STORAGE TECHNOLOGIES » HEAD OF THE CENTRE P. A. BELOV

Supervised by leading scientist from Australian National University, Prof. Yuri Kivshar Head of laboratory: Dr. Pavel Belov, laureate of premium of President of Russian Federation 3 DSc, 7 Ph. D, 4 Ph. D students, 12 students 150 mil RUB project ‘Nonlinear metamaterials’ (one among only 40 awarded in Russia) + 6 other research projects from various funding bodies of Russian Ministry of Education and Science Recognitions: numerous fellowships, scholarships and grants for young scientsits LABORATORY OF METAMATERIALS

Usual output more than 15 journal papers/year, more than 5 invited talks/year and more than 20 conference presentations/year International collaboration with University of Texas, Austin (Prof. Andrea Alu), University of Pennsylvania, Philadelphia (Prof. Nader Engheta), Aalto University, Helsinki, Finland (Prof. Sergei Tretyakov), University of Coimbra, Portugal (Prof. Mario Silveirinha) and etc. Industrial collaboration: Nokia, Samsung Electronics, Bosch. LABORATORY OF METAMATERIALS

The Laboratory is a part of department for Photonics and Optoinformatics and is aimed at providing of both experimental researches and experimental practicum for students. The laboratory is equipped with three stabilized tables for holographic setups, computers and other equipments. Few practical works for students in the framework of courses «Optical technologies for Artificial Intelligence» and «Optical Information Processing» are prepared now: «Van der Lught correlator» , «Joint-transform correlator» , «Holographic processor for Fuzzy Logic» , etc. The equipment allow to carry out experimental research in the area of Fuzzy Logic, Linguistic Modeling, Optical Neural Networks, Optical Information Processing. LABORATORY FOR OPTICAL TECHNOLOGIES FOR ARTIFICIAL INTELLIGENCE HEAD OF THE LABORATORY A. V. PAVLOV

The Laboratory performs experimental research of quantum cryptography, quantum teleleportation and supports the course «Quantum informatics» . Laboratory work 1. Quantum cryptography. Generation of security key. The purpose of this work is investigation of the quantum distribution of security key between sender (Alice) and receiver (Bob). The sequence of bits is transferred using a quantum channel. Alice encodes the date, using some quantum states. Bob registers these states. Laboratory work 2. Quantum cryptography. Noise analysis. The purpose of this work is investigation of the noise of quantum cryptographic system. For this goal, the percent of errors in the cryptographic key will be measured analyzed. Laboratory equipment. Plug-and-Play system of quantum cryptography based on the protocol B 92. LABORATORY FOR QUANTUM INFORMATICS HEAD OF THE LABORATORY S. A. CHIVILIKHIN

LABORATORY FOR PARALLEL COMPUTING CO-HEADS OF THE LABORATORY M. A. BAKHTIN AND V. F. ZVYAGIN Cluster firms Super Micro Computer Inc. with two parts: 168 Intel processor on the side of Linux, and 8 processors on the Windows side.

“ LBullet” is a pack of simulation tools for modeling and visualizing the propagation of ultra-short and extremely-short (by number of oscillations) laser pulses through transparent media and optical fibers. It is applicable for pulses that contains from 1 to 100 cycles of light filed and have very wide continuum spectra. LBullet

LBullet 1 D – initial field configuration

Laboratory «Applied holography» is meant for carrying out experimental practical training on course «Applied holography» , educational research graduation works (bachelor and master) and scientific research works on holography. This laboratory has educational stands for carrying out educational laboratory works, holographic stands for hologram recording and research, production area for making polymeric recording media for developing volume holograms, stands for developing image holograms by method of Y. N. Denisyuk and optical holographic elements. LABORATORY FOR APPLIED HOLOGRAPHY HEAD OF THE LABORATORY O. V. ANDREEV

Laboratory of Optoinformatics is meant for carrying out experimental practical training on course «Basics of optoinformatics» . This laboratory has more than 15 stands for different sections of optoinformatics: semi-conductor lasers and detectors in optoinformatics, transfer of information, information handling and storage, optical calculus, optical technologies of artificial intelligence. Practical training consists of 9 laboratory works. LABORATORY FOR OPTOINFORMATICS CO-HEADS O. V. ANDREEVA AND S. V. ARTEMYEV