Andrey Bogdanov mostly deals with Block cipher, Dielectric, Nanophotonics, Theoretical computer science and Photonics. His studies deal with areas such as SWIFFT, Cryptographic hash function and MDC-2 as well as Block cipher. His study in Dielectric is interdisciplinary in nature, drawing from both Field, Nanoparticle, Polarization and Magnetic dipole.
His Nanophotonics study combines topics in areas such as Bound state and Fano resonance. His Theoretical computer science research is multidisciplinary, relying on both Security of cryptographic hash functions, Block size, Hash chain, Hash function and Secure Hash Algorithm. His Photonics study is concerned with Optoelectronics in general.
Andrey Bogdanov spends much of his time researching Block cipher, Dielectric, Optoelectronics, Optics and Condensed matter physics. The various areas that Andrey Bogdanov examines in his Block cipher study include Discrete mathematics, Cryptanalysis and Cipher. His study looks at the intersection of Cipher and topics like Theoretical computer science with Cryptography.
His Dielectric study combines topics from a wide range of disciplines, such as Photonics, Bound state, Nanophotonics, Resonator and Metamaterial. He has researched Resonator in several fields, including Mode coupling, Scattering and Fano resonance. Optoelectronics and Nanostructure are commonly linked in his work.
His main research concerns Dielectric, Resonator, Bound state, Optoelectronics and Photonics. He interconnects Computational physics, Nanophotonics, Optics, Nanoparticle and Nonlinear optics in the investigation of issues within Dielectric. His Resonator study integrates concerns from other disciplines, such as Dipole, Scattering, Work and Multipole expansion.
He has included themes like Spectral line, Nonlinear system, Condensed matter physics and Continuum in his Bound state study. The study incorporates disciplines such as Perovskite and Nanostructure in addition to Optoelectronics. As a member of one scientific family, Andrey Bogdanov mostly works in the field of Photonics, focusing on Quality and, on occasion, Coaxial.
Andrey Bogdanov focuses on Dielectric, Bound state, Photonics, Optoelectronics and Resonator. The concepts of his Dielectric study are interwoven with issues in Computational physics, Nanotechnology, Silicon, Optics and Nonlinear optics. His studies in Bound state integrate themes in fields like Wavefront, Computer simulation and Nonlinear system.
His Photonics research is multidisciplinary, relying on both Quality, Vector spherical harmonics and Multipole expansion. He has researched Optoelectronics in several fields, including Perovskite and Excitation. His Resonator research integrates issues from Scattering and Nanophotonics.
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PRESENT: An Ultra-Lightweight Block Cipher
A. Bogdanov;L. R. Knudsen;G. Leander;C. Paar.
cryptographic hardware and embedded systems (2007)
Asymmetric Metasurfaces with High-Q Resonances Governed by Bound States in the Continuum.
Kirill Koshelev;Kirill Koshelev;Sergey I Lepeshov;Mingkai Liu;Andrey Bogdanov.
Physical Review Letters (2018)
Biclique Cryptanalysis of the Full AES.
Andrey Bogdanov;Dmitry Khovratovich;Christian Rechberger.
IACR Cryptology ePrint Archive (2011)
High-Q Supercavity Modes in Subwavelength Dielectric Resonators.
Mikhail V. Rybin;Mikhail V. Rybin;Kirill L. Koshelev;Kirill L. Koshelev;Zarina F. Sadrieva;Kirill B. Samusev;Kirill B. Samusev.
Physical Review Letters (2017)
Subwavelength dielectric resonators for nonlinear nanophotonics
Kirill Koshelev;Kirill Koshelev;Sergey Kruk;Elizaveta Melik-Gaykazyan;Elizaveta Melik-Gaykazyan;Jae Hyuck Choi.
Midori: A Block Cipher for Low Energy
Subhadeep Banik;Andrey Bogdanov;Takanori Isobe;Kyoji Shibutani.
international cryptology conference (2015)
SPONGENT: a lightweight hash function
Andrey Bogdanov;Miroslav Knežević;Gregor Leander;Deniz Toz.
cryptographic hardware and embedded systems (2011)
Nonradiating photonics with resonant dielectric nanostructures
Kirill Koshelev;Gael Favraud;Andrey Bogdanov;Yuri Kivshar.
Individual nanoantennas empowered by bound states in the continuum for nonlinear photonics
Kirill Koshelev;Sergey Kruk;Elizaveta Melik-Gaykazyan;Elizaveta Melik-Gaykazyan;Jae Hyuck Choi.
arXiv: Optics (2019)
Linear hulls with correlation zero and linear cryptanalysis of block ciphers
Andrey Bogdanov;Vincent Rijmen.
Designs, Codes and Cryptography (2014)
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