Наши публикации

2022 год

  1. Leuchs G., Andrianov A.V., Anashkina E.A., Manshina A.A., Banzer P. and Sondermann M., Extreme Concentration and Nanoscale Interaction of Light. ACS photonics 9, 1842−1851 (2022). 
  2.  Bashinov A.V., Efimenko E.S., Muraviev A.A., Volokitin V.D., Meyerov I.B., Leuchs, G., Sergeev A.M. and Kim A.V., Particle trajectories, gamma-ray emission, and anomalous radiative trapping effects in magnetic dipole wave. Physical Review E, 105(6), p.065202 (2022).
  3.  Efimenko E. S., Bashinov A. V., Muraviev A. A., Volokitin V. D., Meyerov I. B., Leuchs G., Sergeev A. M., Kim A. V., Vacuum breakdown in magnetic dipole wave by 10-PW class lasers. Physical Review E, 106(1), p. 015201 (2022). 
  4.  Sorokin A.A., Leuchs G., Corney J.F., Kalinin N.A., Anashkina E.A., Andrianov A.V., Towards Quantum Noise Squeezing for 2-Micron Light with Tellurite and Chalcogenide Fibers with Large Kerr Nonlinearity, Mathematics, 10(19), p.3477 (2022).
  5. Andrianov A.V. and Anashkina E.A.,Thermo-optical control of L-band lasing in Erdoped tellurite glass microsphere with blue laser diode. Optics Letters, 47(9), pp.2182-2185 (2022). 
  6. Kalinin N.A., Anashkina E.A., Leuchs G. and Andrianov A.V., Lenslet array-free efficient coherent combining of broadband pulses at the output of a multicore fiber with a square core grid. Optics Express, 30(2), pp.1013-1020 (2022). 
  7.  Andrianov A.V., Marisova M.P. and Anashkina E.A., Thermo-Optical Sensitivity of Whispering Gallery Modes in As2S3 Chalcogenide Glass Microresonators. Sensors, 22(12), p.4636 (2022). 
  8.  Anashkina E.A., Marisova M.P., Dorofeev V.V. and Andrianov A.V., Cascade Brillouin Lasing in a Tellurite-Glass Microsphere Resonator with Whispering Gallery Modes. Sensors, 22(8), p.2866 (2022). 
  9.  Salgals T., Alnis J., Ozolins O., Andrianov A.V., Anashkina E.A., Brice, I. Berkis R., Pang X., Udalcovs A., Porins J. and Spolitis S., Silica Microsphere WGMR-Based Kerr-OFC Light Source and Its Application for High-Speed IM/DD Short-Reach Optical Interconnects. Applied Sciences, 12(9), p.4722 (2022). 
  10. Хайрулин И.Р., Радионычев Е.В., Антонов В.А., Кочаровская О.А. Оптимальный закон движения резонансного ядерного поглотителя для формирования коротких импульсов мёссбауэровского излучения, Изв. вузов. Радиофизика. 65, С. 269–286 (2022), Motion Law Of A Resonant Nuclear Absorber For The Formation Of Short Pulses Of Mossbauer Radiation, Radiophysics and Quantum Electronics, 65 (2023)
  11. N. Kalinin, T. Dirmeier, A. A. Sorokin, E.A. Anashkina, L.L. Sánchez-Soto, J.F. Corney, G. Leuchs, A.V. Andrianov, Observation of Robust Polarization Squeezing via the Kerr Nonlinearity in an Optical Fiber, Advanced Quantum Technologies (2023), DOI:10.1002/qute.202200143,

2021 год

  1. A. V. Andrianov, E. A. Anashkina, “Asymmetric interferometric frequency resolved optical gating for complete unambiguous ultrashort pulse characterization,” Results in Physics 29, 104740 (2021) https://doi.org/10.1016/j.rinp.2021.104740.
  2. E. A. Anashkina, A. A. Sorokin, G. Leuchs, A. V. Andrianov, “Quantum noise squeezing of CW light in tellurite glass fibres,” Results in Physics 30, 104843 (2021). https://doi.org/10.1016/j.rinp.2021.104843. 
  3. A.V. Andrianov, E.A. Anashkina, “L-band Raman lasing in chalcogenide glass microresonator started by thermal mode pulling with auxiliary red diode laser,” Results in Physics 24, 104170 (2021). https://doi.org/10.1016/j.rinp.2021.104170.
  4. A. Muraviev, A. Bashinov, E. Efimenko, V. Volokitin, I. Meyerov, A. Gonoskov, “Strategies for particle resampling in PIC simulations,” Computer Physics Communications, 262, 107826 (2021). https://doi.org/10.1016/j.cpc.2021.107826. Impact Factor 4.390. Q1
  5. I.R. Khairulin, Y.V. Radeonychev, V.A. Antonov, O. Kocharovskaya, “Acoustically induced transparency for synchrotron hard x-ray photons,” Scientific Reports 11, 7930 (2021). https://doi.org/10.1038/s41598-021-86555-x. 
  6. A. Andrianov, A. Kim, “Widely stretchable soliton crystals in a passively mode-locked fiber laser,” Optics Express 29, 25202-25216 (2021). https://doi.org/10.1364/OE.432265. 
  7. A.V. Andrianov, E.A. Anashkina, “Tunable Raman lasing in an As2S3 chalcogenide glass microsphere,” Optics Express 29, 5580-5587 (2021). https://doi.org/10.1364/OE.415787.
  8. T. Salgals, J. Alnis, R. Murnieks, I. Brice, J. Porins, A.V. Andrianov, E.A. Anashkina, S. Spolitis, and V. Bobrovs, “Demonstration of fiber optical communication system employing silica microsphere-based OFC source,” Optics Express 29 (7), 10903-10913 (2021). https://doi.org/10.1364/OE.419546. 
  9.  A. Muraviev, A. Bashinov, E. Efimenko, A. Gonoskov, I. Meyerov, A. Sergeev, “Particle dynamics governed by radiation losses in extreme-field current sheets,” Phys. Rev. E. 104, 065201(2021). https://doi.org/10.1103/PhysRevE.104.065201. 
  10.  E.A. Anashkina, A.V. Andrianov, “Kerr-Raman optical frequency combs in silica microsphere pumped near zero dispersion wavelength,” IEEE Access 9, 6729-6734 (2021). https://doi.org/10.1109/ACCESS.2021.3049183. 
  11.  S. Spolitis, R. Murnieks, L. Skladova, T. Salgals, A.V. Andrianov, M.P. Marisova, G. Leuchs, E.A. Anashkina, V. Bobrovs, “IM/DD WDM-PON communication system based on optical frequency comb generated in silica whispering gallery mode resonator,” IEEE Access 9, 66335-66345 (2021). https://doi.org/10.1109/ACCESS.2021.3076411. 
  12. A.A. Sorokin, E.A. Anashkina, J.F. Corney, V. Bobrovs, G. Leuchs, A.V. Andrianov, “Numerical Simulations on Polarization Quantum Noise Squeezing for Ultrashort Solitons in Optical Fiber with Enlarged Mode Field Area,” Photonics 8, 226 (2021). https://doi.org/10.3390/photonics8060226.

2020 год

  1. Y. V. Radeonychev, I. R. Khairulin, F. G. Vagizov, M. Scully, O. Kocharovskaya, Observation of Acoustically Induced Transparency for γ-Ray Photons. Physical Review Letters, 124(16), 163602 (2020). DOI: 10.1103/PhysRevLett.124.163602
  2.  A.V. Andrianov, N.A. Kalinin, E.A. Anashkina, O.N. Egorova, D.S. Lipatov, A.V. Kim, S.L. Semjonov and A.G. Litvak, "Selective excitation and amplification of peak-power-scalable out-of-phase supermode in Yb-doped multicore fiber," Journal of Lightwave Technology, 38, 2464 – 2470 (2020). DOI: 10.1109/JLT.2020.2966025
  3.  A.V. Andrianov, M.P. Marisova, V.V. Dorofeev, E.A. Anashkina, Thermal shift of whispering gallery modes in tellurite glass microspheres. Results in Physics 17, 103128 (2020). DOI: 10.1016/j.rinp.2020.103128
  4.  E.A. Anashkina, A.V. Andrianov, G. Leuchs, “Single-shot reconstruction of a subpicosecond pulse from a fiber laser system via processing strongly self-phase modulated spectra,” Results in Physics 16, 102848 (2020). DOI: 10.1016/j.rinp.2019.102848
  5.  E.A. Anashkina, G. Leuchs, A.V. Andrianov, “Numerical simulation of multi-color laser generation in Tm-doped tellurite microsphere at 1.9, 1.5 and 2.3 microns,” Results in Physics 16, 102811 (2020). DOI: 10.1016/j.rinp.2019.102811
  6. A. Andrianov, N. Kalinin, E. Anashkina, G. Leuchs, "Highly efficient coherent beam combining of tiled aperture arrays using out-of-phase pattern," Opt. Lett. 45, 4774-4777 (2020). DOI: 10.1364/OL.391259
  7. E.A. Anashkina, A.V. Andrianov, J.F. Corney, G. Leuchs, “Chalcogenide fibers for Kerr squeezing,” Optics Letters,   (2020). DOI: 10.1364/OL.400326
  8.  Ł. Rudnicki, L. L. Sánchez-Soto, G. Leuchs, R. W. Boyd, "Fundamental quantum limits in ellipsometry," Opt. Lett. 45, 4607-4610 (2020). DOI: 10.1364/OL.392955
  9.  V. Averchenko, D. Sych, C. Marquardt, G. Leuchs, Efficient generation of temporally shaped photons using nonlocal spectral filtering. Physical Review A, 101, 013808 (2020). DOI: 10.1103/PhysRevA.101.013808
  10.  Y. S. Teo, G. I. Struchalin, E. V. Kovlakov, D. Ahn, H. Jeong, S. S. Straupe, S. P. Kulik, G. Leuchs, L. L. Sánchez-Soto, Objective compressive quantum process tomography. Physical Review A, 101(2), 022334 (2020). DOI: 10.1103/PhysRevA.101.022334
  11.  E.A. Anashkina, M.P. Marisova, A.V. Andrianov, R.A. Akhmedzhanov, R. Murnieks, M.D. Tokman, L. Skladova, I.V. Oladyshkin, T. Salgals, I. Lyashuk, A. Sorokin, S. Spolitis, G. Leuch, V. Bobrovs, “Microsphere-Based Optical Frequency Comb Generator for 200 GHz Spaced WDM Data Transmission System,” Photonics 7, 72 (2020). DOI: 10.3390/photonics7030072
  12.  V Averchenko, D A Reiß, D Sych, G Leuchs, Lower bounds for the time-bandwidth product of a single-photon pulse. Phys. Scr. 95, 034012 (2020). DOI: 10.1088/1402-4896/ab5973
  13.  E.A. Anashkina, A.V. Andrianov, G. Leuchs, “Numerical simulation of dispersion and nonlinear characteristics of microstructured silica fibres with a thin suspended core in a wide range of their parameters,” Quantum Electronics 50, 386–391 (2020). DOI: 10.1070/QEL17267
  14.  A.O. Sofonov, V.A. Mironov, “Self-compression of laser pulses in a discrete medium,” Quantum Electronics, 50, 361–365 (2020). DOI: 10.1070/QEL17280
  15.  A.V. Andrianov and A.P. Korobeynikova, “Scheme for stabilising the phase and arrival time of ultrashort laser pulses in a coherent beam combining fibre system,” Quantum Electronics 50, 742 (2020). DOI: 10.1070/QEL17371
  16.  G. Leuchs, M. Hawton, L.L. Sánchez-Soto, QED Response of the Vacuum. Physics, 2, 14–21 (2020). DOI:10.3390/physics2010002
  17.  Akhmedzhanov, T., Antonov, V., Zhang, X., Han, K. C., Kuznetsova, E., Khairulin, I., Y. V. Radeonychev, M. Scully, Kocharovskaya, O. Shaping of X-ray Pulses via Dynamical Control of Their Interaction. In X-Ray Lasers 2018: Proceedings of the 16th International Conference on X-Ray Lasers (Vol. 241, p. 45, 2020). Springer Nature. DOI: 10.1007/978-3-030-35453-4_7

2019 год

  1. T. Jiang, V. Kravtsov, M. Tokman, A. Belyanin, M. Raschke, “Ultrafast coherent nonlinear nanooptics and nanoimaging of grapheme,” Nature Nanotechnology 14, 838 (2019).
  2. J. Magnusson, A. Gonoskov, M. Marklund, T.Zh. Esirkepov, J.K. Koga, K. Kondo, M. Kando, S.V. Bulanov, G. Korn, S.S. Bulanov, “Laser-Particle Collider for Multi-GeV Photon Production,” Phys. Rev. Lett. 122, 254801 (2019).
  3. E. A. Anashkina, M. Y. Koptev, A. V. Andrianov, V. V. Dorofeev, S. Singh, Lovkesh, G. Leuchs, and A. V. Kim, “Reconstruction of optical pulse intensity and phase based on SPM spectra measurements in microstructured tellurite fiber in telecommunication range,” Journal of Lightwave Technology 37, 4375 (2019).
  4. C.R. Muller, F. Sedlmeir, V.O. Martynov, Ch. Marquardt, A.V. Andrianov, G. Leuchs, “The standard quantum limit of coherent beam combining,” New Journal of Physics 21, 093047 (2019).
  5. Q. Chen, A.R. Kutayiah, I. Oladyshkin, M. Tokman, A. Belyanin, “Optical properties and electromagnetic modes of Weyl semimetals,” Phys. Rev. B 99, 075137 (2019).
  6. E.A. Anashkina, A.A. Sorokin, M.P. Marisova, A.V. Andrianov, “Development and numerical simulation of tellurite glass microresonators for optical frequency comb generation,” Journal of Non-Crystalline Solids 522, 119567 (2019).
  7. E.A. Anashkina, A.V. Andrianov, V.V. Dorofeev, A.V. Kim, V.V. Koltashev, G. Leuchs, S.E. Motorin, S.V. Muravyev, А.D. Plekhovich, “Development of infrared fiber lasers at 1555 nm and at 2800 nm based on Er-doped zinc-tellurite glass fiber,” Journal of Non-Crystalline Solids 525, 119667 (2019).
  8. E. S. Efimenko, A. V. Bashinov, A. A. Gonoskov, S. I. Bastrakov, A. A. Muraviev, I. B. Meyerov, A. V. Kim, A. M. Sergeev, “Laser-driven plasma pinching in e−e+ cascade,” Phys. Rev. E 99, 031201(R) (2019).
  9. I.R. Khairulin, M.Yu. Emelin, M.Yu. Ryabikin, “Generation of ultrashort X-ray bursts without attosecond frequency modulation in Coulomb collisions of nuclei of diatomic heteronuclear molecules ionised by an ultraintense laser pulse,” Quantum Electronics 49, 330 (2019).
  10. K. Vlasova, A. Makarov, N. Andreev, A. Konovalov, “Minimum Absorption Coefficient Available for Measurements Using Time-resolved Photothermal Common-path Interferometry on the Example of Synthetic Crystalline Quartz,”Sensors & Transducers 233, 6 (2019).

2018 год

  1. Muravyev, S. V., Anashkina, E. A., Andrianov, A. V., Dorofeev, V. V., Motorin, S. E., Koptev, M. Y., & Kim, A. V. (2018). Dual-band Tm 3+-doped tellurite fiber amplifier and laser at 1.9 μm and 2.3 μm. Scientific Reports, 8(1), 16164.

  2. Long, Zhongqu, et al. "Magnetopolaritons in Weyl Semimetals in a Strong Magnetic Field." Physical Review Letters 120.3 (2018): 037403.

  3. Blanco, M., M. T. Flores-Arias, and A. Gonoskov. "Controlling the ellipticity of attosecond pulses produced by laser irradiation of overdense plasmas." Physics of Plasmas 25.9 (2018): 093114.

  4. Tokman, Mikhail, et al. "Enhancement of the spontaneous emission in subwavelength quasi-two-dimensional waveguides and resonators." Physical Review A 97.4 (2018): 043801.

  5. Khairulin, I. R., et al. "Transformation of Mössbauer γ-ray photon waveform into short pulses in dual-tone vibrating resonant absorber." Journal of Physics B: Atomic, Molecular and Optical Physics 51.23 (2018): 235601.

  6. Efimenko, Evgeny S., et al. "Extreme plasma states in laser-governed vacuum breakdown." Scientific Reports 8.1 (2018): 2329.

  7. Khairulin, I. R., et al. "Ultimate capabilities for compression of the waveform of a recoilless γ-ray photon into a pulse sequence in an optically deep vibrating resonant absorber." Physical Review A 98.4 (2018): 043860.

  8. Anashkina, Elena A., et al. "Possibilities of laser amplification and measurement of the field structure of ultrashort pulses in the range of 2.7–3 μm in tellurite glass fibres doped with erbium ions." Quantum Electronics 48.12 (2018): 1118.