[EN] Лаборатории

Contract number

075-15-2021-606

Time span of the project

2021-2023

Laboratory's website

since February 2023 Baranov Denis Grigoryevich

2021 - 2023 Martin-Moreno Luis

As of 01.12.2023

Number of staff members

scientific publications

Objects of intellectual property

The strategic objective of the creation of an international laboratory of advanced nano-photonics at the Moscow Institute of Physics and Technology is ensuring the technological leadership of Russia in fundamental and applied research in the domain of nano-photonics based on new quantum materials (two-dimensional materials, van der Waals heterostructures, artificial nano-materials) including the use of machine learning technologies.

Name of the project: Advanced nano-photonics: quantum materials and artificial intelligence

The creation and development of an international advanced nano-photonics laboratory in the field of quantum materials (including various 2D materials and functional heterostructures based on 2D materials) employing artificial intelligence technologies (deep machine learning) under the supervision of the leading scientist Luis Martin-Moreno to conduct breakthrough fundamental and exploratory research as well as applied studies and develop devices for civilian use aimed mainly at solving inter-disciplinary problems related to the application of new fundamental materials and artificial intelligence technologies and the creation of optical and optoelectronic appliances using these technologies on the basis of new physical principles.

Scientific results:

The theory of plasmonic modes in graphene and other two-dimensional and quasi-two-dimensional systems, in nanostructured systems based on graphene and other two-dimensional materials, in photoexcited two-dimensional systems has been developed. Plasmonic systems based on graphene and other two-dimensional materials have been experimentally realized.
Machine learning methods for predictive modeling of new optical materials with specified properties and optimization of nanophotonic devices have been created.
Optical constants and anisotropic properties of new two-dimensional materials, van der Waals heterostructures, programmable materials based on van der Waals heterostructures and layered crystals were studied.
Methods of exfoliation and characterization of two-dimensional and quasidimensional crystals, transfer of two-dimensional and quasidimensional crystals, creation of van der Waals heterostructures and characterization of optical anisotropy of two-dimensional crystals using Raman spectroscopy have been developed.
Nanoscale waveguides based on anisotropic layered crystals for fast optoelectronic devices have been developed.
True single-photon sources for quantum-protected communication lines based on new two-dimensional materials and van der Waals heterostructures were obtained.
Highly efficient photodetectors based on two-dimensional materials and van der Waals heterostructures in the infrared and terahertz frequency range have been designed and developed.

Organizational and infrastructural changes:

On the basis of the Moscow Institute of Physics and Technology (MIPT), a world-class laboratory has been created under the leadership of a leading scientist of international renown.

Education and personnel occupational retraining:

As a result of the project implementation, members of the scientific team defended 8 dissertations for the degree of Candidate of Sciences and 4 for the degree of Doctor of Sciences.

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G. Ermolaev, A.P. Pushkarev, A. Zhizhchenko, A.A. Kuchmizhak, I. Iorsh, I. Kruglov, A. Mazitov, A. Ishteev, K. Konstantinova, D. Saranin, A. Slavich, D. Stosic, E.S. Zhukova, G. Tselikov, A. Di Carlo, A. Arsenin, K.S. Novoselov, S.V. Makarov, V.S. Volkov,

Giant and tunable excitonic optical anisotropy in single-crystal halide perovskites // Nano Letters (2023) [Q1, 12.262]

X. Xu, P.V. Evdokimov, V.S. Volkov, S. Xiong, X. Jiao, O.O. Kapitanova, Y. Liu

Internal failure coupled with interfacial disintegration of solid-state electrolyte induced by the electrodeposition of lithium metal under defected interface // Energy Storage Materials 57, 421-428 (2023) [Q1, 20.831]

D.V. Grudinin, G.A. Ermolaev, D.G. Baranov, A.N. Toksumakov, K.V. Voronin, A.S. Slavich, A.A. Vyshnevyy, A.B. Mazitov, I.A. Kruglov, D.A. Ghazaryan, A.V. Arsenin, K.S. Novoselov, V.S. Volkov,

Hexagonal boron nitride nanophotonics: a record-breaking material for the ultraviolet and visible spectral ranges // Materials Horizons (2023) [Q1, 15.717]

A.A. Vyshnevyy, G.A. Ermolaev, D.V. Grudinin, K.V. Voronin, I. Kharichkin, A. Mazitov, I.A. Kruglov, D.I. Yakubovsky, P. Mishra, R.V. Kirtaev, A.V. Arsenin, K.S. Novoselov, L. Martin-Moreno, V.S. Volkov

Van der Waals Materials for Overcoming Fundamental Limitations in Photonic Integrated Circuitry // Nano Letters (2023) [Q1, 10.8]

D.I. Yakubovsky, D.V. Grudinin, G.A. Ermolaev, K. Voronin, D.A. Svintsov, A.A. Vyshnevyy, M.S. Mironov, A.V. Arsenin, V.S. Volkov,

Optical Nanoimaging of Surface Plasmon Polaritons Supported by Ultrathin Metal Films // Nano Letters (2023) [Q1, 10.8]

Patent for invention RU 2797004C1, priority of 19.12.2022 Method of fabrication of substrates for giant Raman spectroscopy

Arsenin Alexey Vladimirovich, Barshutina Maria Nikolaevna, Volkov Valentin, Novikov Sergey

Patent for utility model RU 222876, priority from 07.11.2023 Device for light polarization conversion

Denis Grigorievich Baranov, David Armenovich Kazaryan, Alexander Vyacheslavovich Syuy

Patent for utility model RU 222877, priority from 23.11.2023 Optical splitter

Grudinin Dmitry Viktorovich, Syuy Alexander Vyacheslavovich, Arsenin Alexey Vladimirovich

Hosting organization	Field of studies	City	Invited researcher	Time span of the project
Laboratory of Physics for Neuromorphic Computation Systems MIREA - Russian Technological University - (RTU MIREA)	Electrical engineering electronics and information technologies	Moscow	Theodorus "Theo" Henricus Maria Rasing Netherlands	2022-2024
Laboratory of Wireless Technologies ITMO University - (ITMO)	Electrical engineering electronics and information technologies	St. Petersburg	Baena Doello Juan Domingo	2022-2024
Laboratory of Controlled Optical Nanostructures Moscow Institute of Physics and Technology - (MIPT)	Electrical engineering electronics and information technologies	Dolgoprudniy	Miroshnichenko Andrey Evgenievich Australia, Russia	2022-2024

Laboratory for Advanced Nano-photonics and Quantum Materials