2023:
Hybrid quantum-classical machine learning for generative chemistry and drug design A.I. Gircha, A.S. Boev, K. Avchaciov, P.O. Fedichev, and A.K. Fedorov
Scientific Reports (accepted); arXiv:2108.11644

Integrable Floquet systems related to logarithmic conformal field theory
V.I. Yashin, D.V. Kurlov, A.K. Fedorov, and V. Gritsev
SciPost Physics 14 (4), 084 (2023); arXiv:2206.14277

Improving the performance of fermionic neural networks with the Slater exponential Ansatz
D. Bokhan, A.S. Boev, A.K. Fedorov, and D.N. Trubnikov
International Journal of Quantum Chemistry (accepted); arXiv:2202.10126

Deploying hybrid quantum-secured infrastructure for applications: When quantum and post-quantum can work together
A.K. Fedorov
Frontiers in Quantum Science and Technology 2, 1164428 (2023); arXiv:2304.04585

Realizing a class of stabilizer quantum error cor- rection codes using a single ancilla and circular connectivity
A.V. Antipov, E.O. Kiktenko, and A.K. Fedorov
Physical Review A 107, 032403 (2023); arXiv:2207.13356

Generalized Toffoli gate decomposition using ququints: Towards realizing Grover’s algorithm with qudits
A.S. Nikolaeva, E.O. Kiktenko, and A.K. Fedorov
Entropy 25, 387 (2023); arXiv:2212.12505

Quantum-inspired optimization for wavelength assignment
A.S. Boev, S.R. Usmanov, A.M. Semenov, M.M. Ushakova, G.V. Salahov, A.S. Mastiukova, E.O. Kiktenko, and A.K. Fedorov
Frontiers in Physics 10, 1092065 (2023); arXiv:2211.00317

Continuous monitoring for noisy intermediate-scale quantum processors
Y.F. Zolotarev, I.A. Luchnikov, J.A. López-Saldívar, A.K. Fedorov, and E.O. Kiktenko
Physical Review Applied 19, 014027 (2023); arXiv:2205.06191

2022:
Suppressing decoherence in quantum state transfer with unitary operations
M.A. Gavreev, E.O. Kiktenko, A.S. Mastiukova, and A.K. Fedorov
Entropy 25, 67 (2022); arXiv:2208.04926

Many-body localization of Z3 Fock parafermions
M.S. Bahovadinov, W. Buijsman, A.K. Fedorov, V. Gritsev, and D.V. Kurlov
Physical Review B 106, 224205 (2022); arXiv:2210.02947

Driven-dissipative time crystalline phases in a two-mode bosonic system with Kerr nonlinearity
L.R. Bakker, M.S. Bahovadinov, D.V. Kurlov, V. Gritsev, A.K. Fedorov, and D.O. Krimer
Physical Review Letters 129, 250401 (2022); arXiv:2204.07533

Multiclass classification using quantum convolutional neural networks with hybrid quantum-classical learning
D. Bokhan, A.S. Mastiukova, A.S. Boev, D.N. Trubnikov, and A.K. Fedorov
Frontiers in Physics 10, 1069985 (2022); arXiv:2203.15368

Probing non-Markovian quantum dynamics with data-driven analysis: Beyond «black-box» machine learning models
I.A. Luchnikov, E.O. Kiktenko, M.A. Gavreev, H. Ouerdane, S.N. Filippov, and A.K. Fedorov
Physical Review Research 4, 043002 (2022); arXiv:2103.14490

Learning entanglement breakdown as a phase transition by confusion
M.A. Gavreev, A.S. Mastiukova, E.O. Kiktenko, and A.K. Fedorov
New Journal of Physics 24, 073045 (2022); arXiv:2202.00348

Variational quantum eigensolver techniques for simulating carbon monoxide
oxidation
M.S. Sapova and A.K. Fedorov
Communications Physics 5, 199 (2022); arXiv:2108.11167

Efficient realization of quantum primitives for Shor’s algorithm using PennyLane library
A.V. Antipov, E.O. Kiktenko, and A.K. Fedorov
PLoS ONE 17, e027146 (2022); arXiv:2201.05426

Floquet integrability and long-range entanglement generation in the one-dimensional quantum Potts model
A.I. Lotkov, V. Gritsev, A.K. Fedorov, and D.V. Kurlov
Physical Review B 105, 144306 (2022); arXiv:2110.09559

Decomposing the generalized Toffoli gate with qutrits
A.S. Nikolaeva, E.O. Kiktenko, and A.K. Fedorov
Physical Review A 105, 032621 (2022); arXiv:2112.14535

Practical quantum multiparty signatures using quantum key distribution networks
E.O. Kiktenko, A.S. Zelenetsky, and A.K. Fedorov
Physical Review A 105,123022 (2022); arXiv:2107.12974

2021:
Confidence polytopes for quantum process tomography
E.O. Kiktenko, D.O. Norkin, and A.K. Fedorov
New Journal of Physics 23, 123022 (2021); arXiv:2109.04734

Optimizing the deployment of quantum key distribution switch-based networks
A. Tayduganov, V. Rodimin, E.O. Kiktenko, V. Kurochkin, E. Krivoshein, S. Khanenkov, V. Usova, L. Stefanenko, Y. Kurochkin, and A.K. Fedorov
Optics Express 29, 24884 (2021); arXiv:2104.04155

Security analysis of the W-OTS+ signature scheme: Updating security bounds
M.A. Kudinov, E.O. Kiktenko, and A.K. Fedorov
Matematicheskie Voprosy Kriptografii 12, 129–145 (2021); arXiv:2002.07419

Genome assembly using quantum and quantum-inspired annealing, Genome assembly using quantum and quantum-inspired annealing
A.S. Boev, A.S. Rakitko, S.R. Usmanov, A.N. Kobzeva, I.V. Popov, V.V. Ilinsky, E.O. Kiktenko, and A.K. Fedorov
Scientific Reports 11, 13183 (2021); arXiv:2004.06719

Towards security recommendations for public-key infrastructures for production environments in the post-quantum era
S.E. Yunakovsky, M. Kot, N. Pozhar, D. Nabokov, M. Kudinov, A. Guglya, E.O. Kiktenko, E. Kolycheva, A. Borisov, and A.K. Fedorov
EPJ Quantum Technology 8, 1–19 (2021); arXiv:2105.01324

Quantum phase transition of a two-dimensional quadrupolar system
G.E. Astrakharchik, I.L. Kurbakov, D.V. Sychev, A.K. Fedorov, and Yu.E. Lozovik
Physical Review B 103, L140101 (2021); arXiv:2012.14008

Security of the decoy state method for quantum key distribution
A.S. Trushechkin, E.O. Kiktenko, D.A. Kronberg, and A.K. Fedorov
Physics-Uspekhi 64, 88 (2021); arXiv:2101.10128

Towards practical applications in quantum computational biology
A.K. Fedorov and M.S. Gelfand
Nature Computational Science 1, 114 (2021)

Split-ring polariton condensates as macroscopic two-level quantum systems
Y. Xue, I. Chestnov, E. Sedov, E. Kiktenko, A.K. Fedorov, S. Schumacher, X. Ma, and A. Kavokin
Physical Review Research 3, 013099 (2021); arXiv:1907.00383

Blind information reconciliation with polar codes for quantum key distribution, Blind information reconciliation with polar codes for quantum key distribution
E.O. Kiktenko, A.O. Malyshev, and A.K. Fedorov
IEEE Communication Letters 25, 79 (2021); arXiv:2008.12299

2020:
Certified quantum random numbers from untrusted light
D. Drahi, N. Walk, M.J. Hoban, A.K. Fedorov, R. Shakhovoy, A. Feimov, Y. Kurochkin, W.S. Kolthammer, J. Nunn, J. Barrett, and I.A. Walmsley
Physical Review X 10, 041048 (2020); arXiv:1905.09665

Advanced attribute-based encryption protocol based on the modified secret sharing scheme
M.A. Kudinov, A.A. Chilikov, E.O. Kiktenko, and A.K. Fedorov
Journal of Computer Virology and Hacking Techniques 16, 333–341 (2020); arXiv:1912.03009

One-dimensional translationallyinvariant free-fermionic theories with dissipation
L.R. Bakker, V.I. Yashin, D.V. Kurlov, A.K. Fedorov, and V. Gritsev
Physical Review A 102, 052220 (2020); arXiv:2007.07754

Minimal informationally complete measurements for probability representation of quantum dynamics
V.I. Yashin, E.O. Kiktenko, A.S. Mastiukova, and A.K. Fedorov
New Journal of Physics 22, 103026 (2020); arXiv:2006.13727

Lightweight authentication for quantum key distribution, IEEE Transactions on Information
E.O. Kiktenko, A.O. Malyshev, M.A. Gavreev, A.A. Bozhedarov, N.O. Pozhar, M.N. Anufriev, and A.K. Fedorov
Theory 66, 6354 (2020); arXiv:1903.10237

Tomographic and entropic analysis of modulated signals
A.S. Mastiukova, M.A. Gavreev, E.O. Kiktenko, and A.K. Fedorov
Optics and Spectroscopy 128, 902 (2020); arXiv:2001.07707

Probability representation of quantum dynamics using pseudo-stochastic maps
E.O. Kiktenko, A.O. Malyshev, A.S. Mastiukova, V.I. Man’ko, A.K. Fedorov, and D. Chruscinski
Physical Review A 101, 052320 (2020); arXiv:1908.03404

Experimental quantum homodyne tomography via machine learning
E.S. Tiunov, V.V. Tiunova, A.E. Ulanov, A.I. Lvovsky, and A.K. Fedorov
Optica 7, 448 (2020); arXiv:1907.06589

Quantum soft filtering for the improved security analysis of the coherent one-way quantum-key-distribution protocol
D.A. Kronberg, A.S. Nikolaeva, Y.V. Kurochkin, and A.K. Fedorov
Physical Review A 101, 032334 (2020); arXiv:1910.06167

Quantum noise extraction from the interference of laser pulses in an optical quantum random number generator
R. Shakhovoy, D. Sych, V. Sharoglazova, A. Udaltsov, A.K. Fedorov, and Y. Kurochkin
Optics Express 28, 6209 (2020); arXiv:1910.00219

Scalable quantum computing with qudits on a graph
E.O. Kiktenko, A.S. Nikolaeva, Peng Xu, G.V. Shlyapnikov, and A.K. Fedorov
Physical Review A 101, 022304 (2020); arXiv:1909.08973

Revealing quantum chaos with machine learning
Y.A. Kharkov, V.E. Sotskov, A.A. Karazeev, E.O. Kiktenko, and A.K. Fedorov
Physical Review B 101, 064406 (2020); arXiv:1902.09216

Protecting quantum systems from decoherence with unitary operations
E.O. Kiktenko, A.S. Mastiukova, and A.K. Fedorov
Optical Engineering 59, 061625 (2020); arXiv:1907.01971

Estimating the precision for quantum process tomography
E.O. Kiktenko, D.N. Kublikova, and A.K. Fedorov
Optical Engineering 59, 061614 (2020); arXiv:1911.00277

2019:
Influence of the laser frequency drift in phase-sensitive optical time domain reflectometry
A.A. Zhirnov, K.V. Stepanov, A.O. Chernutsky, A.K. Fedorov, E.T. Nesterov, C. Svelto, A.B. Pnev, and V.E. Karasik
Optics and Spectroscopy 127, 656 (2019); arXiv:1604.08854

Modular quantum key distribution setup for research and development applications
V.E. Rodimin, E.O. Kiktenko, V.V. Usova, M.Yu. Ponomarev, T.V. Kazieva, A.V. Miller, A.S. Sokolov, A.A. Kanapin, A.V. Losev, A.S. Trushechkin, M.N. Anufriev, N.O. Pozhar, V.L. Kurochkin, Y.V. Kurochkin, and A.K. Fedorov
Journal of Russian Laser Research 40, 221 (2019); arXiv:1612.04168

Optical probing in a bilayer dark-bright condensate system
N.A. Asriyan, I.L. Kurbakov, A.K. Fedorov, and Y.E. Lozovik
Physical Review B 99, 085108 (2019); arXiv:1811.08802

2018:
Error estimation at the information reconciliation stage of quantum key distribution
E.O. Kiktenko, A.O. Malyshev, A.A. Bozhedarov, N.O. Pozhar, M.N. Anufriev, and A.K. Fedorov
Journal of Russian Laser Research 39, 558 (2018); arXiv:1810.05841

Symmetric blind information reconciliation and hash-function-based verification for quantum key distribution
A.K. Fedorov, E.O. Kiktenko, and A.S. Trushechkin
Lobachevskii Journal of Mathematics 39, 992 (2018); arXiv:1705.06664

Quantum-secured blockchain
E.O. Kiktenko, N.O. Pozhar, M.N. Anufriev, A.S. Trushechkin, R.R. Yunusov, Y.V. Kurochkin, A.I. Lvovsky, and A.K. Fedorov
Quantum Science and Technology 3, 035004 (2018); arXiv:1705.09258;
Featured in MIT Technology Review, Phys.Org, Forbes Russia, and etc. Altmetric: The
highest trending article from this journal. Altmetric: In the top 5% of all research outputs

Asymptotic control theory for a closed string
A.K. Fedorov and A.I. Ovseevich
Russian Journal of Mathematical Physics 25, 200–219 (2018); arXiv:1704.08623

Quantum-secured data transmission in urban fibre-optic communication lines
A.V. Duplinskiy, E.O. Kiktenko, N.O. Pozhar, M.N. Anufriev, R.P. Ermakov, A.I. Kotov, A.V. Brodskiy, R.R. Yunusov, V.L. Kurochkin, A.K. Fedorov, and Y.V. Kurochkin
Journal of Russian Laser Research 39, 113 (2018); arXiv:1712.09831
Featured in Forbes Russia

Robust general N user authentication scheme in a centralized quantum communication network via generalized GHZ states
A. Farouk, J. Batle M. Elhoseny, M. Naseri, M. Lone, A.K. Fedorov, M. Alkhambashi, S.H. Ahmed, and M. Abdel-Aty
Frontiers of Physics 13, 130306 (2018)

Quantum-key-distribution protocol with pseudorandom bases
A.S. Trushechkin, P.A. Tregubov, E.O. Kiktenko, Y.V. Kurochkin, and A.K. Fedorov
Physical Review A 97, 012311 (2018); arXiv:1706.00611

2017:
Symmetric blind information reconciliation for quantum key distribution
E.O. Kiktenko, A.S. Trushechkin, C.C.W. Lim, Y.V. Kurochkin, and A.K. Fedorov
Physical Review Applied 8, 044017 (2017); arXiv:1612.03673

Demonstration of a quantum key distribution network in urban fibre-optic communication lines
E.O. Kiktenko, N.O. Pozhar, A.V. Duplinskiy, A.A. Kanapin, A.S. Sokolov, S.S. Vorobey, A.V. Miller, V.E. Ustimchik, M.N. Anufriev, A.S. Trushechkin, R.R. Yunusov, V.L. Kurochkin, Y.V. Kurochkin, and A.K. Fedorov
Quantum Electronics 47, 798–802 (2017); arXiv:1705.07154

Practical issues in decoy-state quantum key distribution based on the central limit theorem
A.S. Trushechkin, E.O. Kiktenko, and A.K. Fedorov
Physical Review A 96, 022316 (2017); arXiv:1702.08531

Asymptotically optimal control for a simplest distributed system
A.I. Ovseevich and A.K. Fedorov
Doklady Mathematics 95, 194–197 (2017); arXiv:1612.01485

P-wave superfluidity of atomic lattice fermions
A.K. Fedorov, V.I. Yudson, and G.V. Shlyapnikov
Physical Review A 95, 043615 (2017); arXiv:1701.08520

Analysis of coherent quantum cryptography protocol vulnerability to an active beam-splitting attack
D.A. Kronberg, E.O. Kiktenko, A.K. Fedorov, and Y.V. Kurochkin
Quantum Electronics 47, 163–168 (2017); arXiv:1611.04112

2016:
Information processing using three-qubit and qubit-qutrit encodings of noncomposite quantum systems
A.A. Popov, E.O. Kiktenko, A.K. Fedorov, and V.I. Man’ko
Journal of Russian Laser Research 37, 581–590 (2016); arXiv:1610.05576

Minimization of errors in narrowband laser phase noise measurements based on reference measurement channels
A.B. Pnev, K.V. Stepanov, D.A. Dvoretskiy, A.A. Zhirnov, E.T. Nesterov, S.G. Sazonkin, A.O. Chernutsky, A.K. Fedorov, C. Svelto, and V.E. Karasik
International Journal of Advanced Biotechnology and Research 7, 1445–1451 (2016)

Damping of a system of linear oscillators using the generalized dry friction
A.I. Ovseevich and A.K. Fedorov
Proceedings of the Steklov Institute of Mathematics 293, S156–S165 (2016); arXiv:1508.07775

Novel p-wave superfluids of fermionic polar molecules
A.K. Fedorov, S.I. Matveenko, V.I. Yudson, and G.V. Shlyapnikov
Scientific Reports 6, 27448 (2016); arXiv:1601.03026

Bidirectional imperfect quantum teleportation with a single Bell state
E.O. Kiktenko, A.A. Popov, and A.K. Fedorov
Physical Review A 93, 062305 (2016); arXiv:1602.01420; Media: Phys.org, RIA News

Asymptotic control theory for a system of linear oscillators
A.K. Fedorov and A.I. Ovseevich
Moscow Mathematical Journal 16, 561–598 (2016); arXiv:1308.6090

Gaussian mixture model for events recognition in optical time-domain reflectometry based sensing systems
A.K. Fedorov, M.N. Anufriev, A.A. Zhirnov, K.V. Stepanov, E.T. Nesterov, D.E. Namiot, V.E. Karasik, and A.B. Pnev
Review of Scientific Instruments 87, 036107 (2016); arXiv:1509.05998

Teleportation in an indivisible quantum system
E.O. Kiktenko, A.K. Fedorov, and V.I. Man’ko
Quantum Measurements and Quantum Metrology 3, 13–19 (2016); arXiv:1512.05168; Press Release: MIPT;
Media: Phys.org, EurekAlert!, RIA News, WIRED

2015:
Feedback control for a system of linear oscillators
A.I. Ovseevich and A.K. Fedorov
Automation and Remote Control 76, 1905–1917 (2015); arXiv:1509.06056

Towards events recognition in a distributed fiber-optic sensor system: Kolmogorov-Zurbenko filtering
A.K. Fedorov, M.N. Anufriev, A.A. Zhirnov, E.T. Nesterov, D.E. Namiot, A.B. Pnev, and V.E. Karasik
International Journal of Open Information Technologies 3, 16–19 (2015); arXiv:1509.05996

Perturbation theory of observable linear systems
A.K. Fedorov and A.I. Ovseevich
Mathematical Notes 98, 216–221 (2015); arXiv:1404.6901

Single qudit realization of the Deutsch algorithm using superconducting many-level quantum circuits
E.O. Kiktenko, A.K. Fedorov, A.A. Strakhov, and V.I. Man’ko, , Physics Letters A 379, 1409–1413 (2015); arXiv:1503.01583;
Press Release: MIPT;
Media: Phys.org, EurekAlert!, RIA News, WIRED

Motion of a system of oscillators under the generalized dry friction control
A.I. Ovseevich and A.K. Fedorov
Automation and Remote Control 76, 826–833 (2015); arXiv:1505.00773

Tomography of a multimode quantum black box
I.A. Fedorov, A.K. Fedorov, Y.V. Kurochkin, and A.I. Lvovsky
New Journal of Physics 17, 043063 (2015); arXiv:1403.0432;
Featured in IOP Select 2015

Multilevel superconducting circuits as two-qubit systems: Operations, state preparation, and entropic inequalities
E.O. Kiktenko, A.K. Fedorov, O.V. Man’ko, and V.I. Man’ko
Physical Review A 91, 042312 (2015); arXiv:1411.0157;
Press Release: MIPT; Media: Phys.org, EurekAlert!, RIA News, WIRED

Tomographic discord for a system of two coupled nanoelectric circuits
A.K. Fedorov, E.O. Kiktenko, O.V. Man’ko, and V.I. Man’ko
Physica Scripta 90, 055101 (2015); arXiv:1409.5265

2014:
Roton-maxon spectrum and instability for weakly interacting dipolar excitons in a semiconductor layer
A.K. Fedorov, I.L. Kurbakov, and Yu.E. Lozovik
Physical Review B 90, 165430 (2014); arXiv:1403.3956

Two-dimensional Bose gas of tilted dipoles: Roton instability & condensate depletion
A.K. Fedorov, I.L. Kurbakov, Y.E. Shchadilova, and Yu.E. Lozovik
Physical Review A 90, 043616 (2014); arXiv:1407.6399

Tomographic causal analysis of two-qubit states and tomographic discord
E.O. Kiktenko and A.K. Fedorov
Physics Letters A 378, 1704–1710 (2014); arXiv:1309.4948

2013:
Quaternion representation and symplectic spin tomography
A.K. Fedorov and E.O. Kiktenko
Journal of Russian Laser Research 34, 477–487 (2013); arXiv:1308.6549

Feynman integral and perturbation theory in quantum tomography
A.K. Fedorov
Physics Letters A 377, 2320–2323 (2013)

Asymptotically optimal feedback control for a system of linear oscillators
A.I. Ovseevich and A.K. Fedorov
Doklady Mathematics 88, 613–617 (2013); arXiv:1611.09669

Other publications
2021:
Proof-of-forgery for hash-based signatures
E.O. Kiktenko, M.A. Kudinov, A.A. Bulychev, and A.K. Fedorov
Proceedings of the International Conference on Security and Cryptography (SECRYPT 2021, July 6-8, 2021); arXiv:1905.12993

2020:
Learning phase transitions in ferrimagnetic GdFeCo alloys
N.A. Koritsky, S.V. Solov’yov, A.K. Fedorov, and A.K. Zvezdin
Proceedings of the 2020 Science and Artificial Intelligence conference (Novosibirsk-online, November 14-15, 2020), IEEE Xplore, arXiv:2010.16237

SPHINCS+ post-quantum digital signature scheme with Streebog hash function
E.O. Kiktenko, A.A. Bulychev, P.A. Karagodin, N.O. Pozhar, M.N. Anufriev, and A.K. Fedorov
AIP Conference Proceedings 2241, 020014 (2020); arXiv:1904.06525

2019:
Detecting brute-force attacks on cryptocurrency wallets
E.O. Kiktenko, M.A. Kudinov, and A.K. Fedorov
Lecture Notes in Business Information Processing 373, 232-242 (2019); arXiv:1904.06943

2018:
Superfluidity of identical fermions in an optical lattice: Atoms and polar molecules
A.K. Fedorov, V.I. Yudson, and G.V. Shlyapnikov
AIP Conference Proceedings 1936, 020022 (2018); arXiv:1711.01849

Practical cryptographic strategies in the post-quantum era
I.S. Kabanov, R.R. Yunusov, Y.V. Kurochkin, and A.K. Fedorov
AIP Conference Proceedings 1936, 020021 (2018); arXiv:1703.04285

Educational potential of quantum cryptography and its experimental modular realization
A.K. Fedorov, A.A. Kanapin, V.L. Kurochkin, Y.V. Kurochkin, A.V. Losev, A.V. Miller, I.O. Pashinskiy, V.E. Rodimin, and A.S. Sokolov
Proceedings of the Scientific-Practical Conference «Research and Development – 2016», 83 (2018); arXiv:1710.08090

Elements of asymptotic control theory for a closed string
A.K. Fedorov and A.I. Ovseevich
Proceedings of the 8th International Conference on Physics and Control, IFAC-PapersOnLine 51, 87 (2018)

2017:
Phase-sensitive optical time-domain reflectometry with pulse mode EDFA: Probe pulse preparation
A.O. Chernutsky, A.A. Zhirnov, A.K. Fedorov, E.T. Nesterov, K.V. Stepanov, Ya.A. Tezadov, E.V. Kondrashin, V.E. Karasik, and A.B. Pnev
Proceedings of the 38th Progress In Electromagnetics Research Symposium, 2231 (2017); arXiv:1612.03893

Quantum key distribution networks and their applications for blockchain-based technologies
A.K. Fedorov
Journal of Lasers, Optics & Photonics 4, 04005 (2017)

2016:
Multipurpose monitoring system for icebreakers: Development, implementation, and testing
A. Zhirnov, M. Anufriev, N. Pozhar, K. Stepanov, A. Chernutsky, I. Makhrov, E. Nesterov, D. Shelestov, K. Koshelev, A. Fedorov, V. Karasik, and A. Pnev
MATEC Web of Conferences 75, 04005 (2016)

Post-processing procedure for industrial quantum key distribution systems
E.O. Kiktenko, A.S. Trushechkin, Y.V. Kurochkin, and A.K. Fedorov
Journal of Physics: Conference Series 741, 012081 (2016); arXiv:1603.08387

2015:
Structural monitoring system with fiber Bragg grating sensors: implementation and software solution
A.K. Fedorov, V.A. Lazarev, I.P. Makhrov, N.O. Pozhar, M.N. Anufriev, A.B. Pnev, and V.E. Karasik
Journal of Physics: Conference Series 594, 012049 (2015); arXiv:1412.5838

Mutual information-energy inequality for thermal states of a bipartite quantum system
A.K. Fedorov and E.O. Kiktenko
Journal of Physics: Conference Series 594, 012045 (2015); arXiv:1412.5812

2014:
Sensing of phase transition in medium with terahertz pulsed spectroscopy
K.I. Zaytsev, I.N. Fokina, A.K. Fedorov, and S.O. Yurchenko
Journal of Physics: Conference Series 486, 012024 (2014)

2013:
Asymptotically optimal feedback control for a system of linear oscillators
A.I. Ovseevich and A.K. Fedorov
AIP Conference Proceedings 1570, 257 (2013)

Quantum tomograms and their application in quantum information science
A.K. Fedorov and S.O. Yurchenko
Journal of Physics: Conference Series 414, 012040 (2013)

Roton instability and phonon collapse of two-dimensional tilted dipole atoms
A.K. Fedorov, I.L. Kurbakov, and Yu.E. Lozovik
Journal of Physics: Conference Series 414, 012036 (2013)

Feedback bounded control for a system of oscillators
A.I. Ovseevich and A.K. Fedorov
Vestnik of Lobachevsky State University of Nizhni Novgorod 1, 278–283 (2013) [In Russian]

2012:
Phase delay distribution in dome lens antenna with displaced feed array
V.I. Litun, V.N. Mitrokhin, and A.K. Fedorov
IEEE Proceedings, Catalog Number CFP12788-PRT (2012)

Symplectic tomograms presented through Feynman path integrals
A.K. Fedorov and S.O. Yurchenko
Herald of the Bauman Moscow State Technical University 45, 29–37 (2012) [In Russian]