Научные и методические публикации

Научные публикации

2019

  1. Sychugin S.A., Mashkovich E.A., Maslov A.V., Bakunov M.I. "Terahertz Cherenkov radiation from a tightly focused ultrashort laser pulse in an electro-optic medium," Journal of the Optical Society of America B: Optical Physics 36 (4), 1101-1107 (2019).
  2. Bodrov S.B., Stepanov A.N., Bakunov M.I. "Generalized analysis of terahertz generation by tilted-pulse-front excitation in a LiNbO3 prism," Optics Express 27 (3), 2396-2410 (2019).
  3. Takano K., Asai M., Kato K., Komiyama H., Yamaguchi A., Iyoda T., Tadokoro Y., Nakajima M., Bakunov M.I. "Terahertz emission from gold nanorods irradiated by ultrashort laser pulses of different wavelengths," Scientific Reports 9 (1), 3280 (2019).
  4. Bakunov M.I., Tsarev M.V. "Tilted-pulse-front excitation of strong quasistatic precursors," Optics Express 27 (4), 5154-5164 (2019).
  5. 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 (4), 330–336 (2019).
  6. T.A. Odintsova, M. Yu. Tretyakov , A.O. Zibarova, O. Pirali, P. Roy, A. Campargue "Far-infrared self-continuum absorption of H2 16O and H2 18O (15–500 cm−1)," Journal of Quantitative Spectroscopy & Radiative Transfer 227, 190–200 (2019).
  7. A. Murzanev, S. Bodrov, Z. Samsonova, D. Kartashov, M. Bakunov, and M. Petrarca, “Superfilamentation in air reconstructed by transversal interferometry,” Phys. Rev. A 100, 063824 (2019). DOI: 10.1103/PhysRevA.100.063824
  8. S.B. Bodrov, I.E. Ilyakov, B.V. Shishkin, and M.I. Bakunov, “Highly efficient Cherenkov-type terahertz generation by 2-μm wavelength ultrashort laser pulses in a prism-coupled LiNbO3 layer,” Opt. Express 27, 36059-36065 (2019). https://doi.org/10.1364/OE.27.036059
  9. A. V. Shirokova, A.V. Maslov, and M.I. Bakunov, “Scattering of surface plasmons on graphene by abrupt free-carrier generation,” Phys. Rev. B 100, 045424 (2019).

2018

  1. A.V. Maslov, M.I. Bakunov “Temporal scattering of a graphene plasmon by a rapid carrier density decrease,” Optica 5 (12), 1508-1515 (2018).
  2. M.V. Tsarev, P. Baum “Characterization of non-relativistic attosecond electron pulses by transition radiation from tilted surfaces,” New Journal of Physics, 20, 033002 (2018).
  3. A.I. Shugurov, E.A. Mashkovich, S.B. Bodrov, M. Tani, M.I. Bakunov “Nonellipsometric electro-optic sampling of terahertz waves in GaAs,” Optics Express 26(18), 23359-23365 (2018).
  4. E.S. Efimenko, S.A. Sychugin, M.V. Tsarev, M.I. Bakunov “Quasistatic precursors of ultrashort laser pulses in electro-optic crystals,” Physical Review A 98(1), 013842 (2018).
  5. A.A. Silaev, A.A. Romanov, N.V. Vvedenskii “Multi-hump potentials for efficient wave absorption in the numerical solution of the time-dependent Schrödinger equation,” Journal of Physics B: Atomic, Molecular and Optical Physics, 51(6), 065005 (2018).
  6. A.A. Romanov, A.A. Silaev, D.A. Smirnova, T.S. Sarantseva, A.A. Minina, M.V. Frolov, N.V. Vvedenskii “Quantum-mechanical simulations of interaction of many-electron quantum systems with ionizing laser pulses,” Problems of Atomic Science and Technology, 116(4), 277-281 (2018).
  7. I.R. Khairulin, V.A. Antonov, Y.V. Radeonychev, O.A. Kocharovskaya “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), 043860 (2018).
  8. I.R. Khairulin, V.A. Antonov, Y.V. Radeonychev, O.A. Kocharovskaya “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), 235601 (2018).
  9. A.A. Moiseev, G.V. Gelikonov, S.Yu. Ksenofontov, P.A. Shilyagin, D.A. Terpelov, I.V. Kasatkina, D.A. Karashtin, A.A. Sovetsky, V.M. Gelikonov “Digital refocusing in optical coherence tomography using finite impulse response filters,” Laser Physics Letters, 15(9), 095601 (2018).
  10. A.A. Sovetsky, A.L. Matveyev, L.A. Matveev, D.V. Shabanov, V.Y. Zaitsev “Manually-operated compressional optical coherence elastography with effective aperiodic averaging: demonstrations for corneal and cartilaginous tissues,” Laser Physics Letters, 15(8), 085602 (2018).
  11. A.L. Matveyev, L.A. Matveev, A.A. Sovetsky, G.V. Gelikonov, A.A. Moiseev, V.Y. Zaitsev “Vector method for strain estimation in phase-sensitive optical coherence elastography,” Laser Physics Letters, 15(6), 065603 (2018).

2017

  1. E.A. Mashkovich, S.A. Sychugin, M.I. Bakunov “Generation of narrowband terahertz radiation by an ultrashort laser pulse in a bulk LiNbO3 crystal,” JOSA B, 34(9), 1805-1810 (2017).
  2. M.I. Bakunov, A.V. Maslov, M.V. Tsarev “Optically generated terahertz pulses with strong quasistatic precursors,” Physical Review A, 95(6), 063817 (2017).
  3. A.P. Savikin, A.S. Egorov, A.V. Budruev, I.Y. Perunin, O.V. Krasheninnikova, I.A. Grishin “Spectral properties and anti-Stokes luminescence of TeO2–BaF2: Ho3+, Ho3+/Yb3+ ceramics and glass excited by 1.9-μm radiation of a Tm: LiYF4 laser,” Technical Physics Letters, 43(7), 652-654 (2017).
  4. Antipov O.L., Eranov I.D., Kositsyn R.I. “10-W mid-IR optical parametric oscillators based on ZnGeP2 elements pumped by a fibre-laser-pumped Ho: YAG Laser. Experimental and numerical study,” Quantum Electronics, 47(7), 601 (2017).
  5. V.Y. Zaitsev, A.L. Matveyev, L.A. Matveev, E.V. Gubarkova, A.A. Sovetsky, M.A. Sirotkina, G.V. Gelikonov, E.V. Zagaynova, N.D. Gladkova, A. Vitkin “Practical obstacles and their mitigation strategies in compressional optical coherence elastography of biological tissues,” Journal of Innovative Optical Health Sciences, 10(6), 1742006 (2017).
  6. V.A. Antonov, I.R. Khairulin, Y.V. Radeonychev, O.A. Kocharovskaya“Compression of the Waveform of a Gamma Photon Into a Train of Short Pulses in an Optically Dense Oscillating Mössbauer Absorber,” Radiophysics and Quantum Electronics, 59(11), 937-946 (2017).

2016

  1. M. I. Bakunov, S. D. Gorelov, and M. Tani, "Nonellipsometric Noncollinear Electrooptic Sampling of Terahertz Waves: A Comprehensive Theory," Ieee Transactions on Terahertz Science and Technology 6, 473-479 (2016).
  2. I. N. Druzhkova, M. V. Shirmanova, M. M. Lukina, V. V. Dudenkova, N. M. Mishina, and E. V. Zagaynova, "The metabolic interaction of cancer cells and fibroblasts - coupling between NAD(P)H and FAD, intracellular pH and hydrogen peroxide," Cell Cycle 15, 1257-1266 (2016).
  3. A. S. Egorov, A. P. Savikin, O. N. Eremeikin, V. B. Ikonnikov, E. M. Gavrishchuk, and D. V. Savin, "STUDY OF THE CHARACTERISTICS OF A LASER BASED ON THE CR2+-ION DOPED ZNS POLYCRYSTAL OBTAINED BY THE METHOD OF CHEMICAL VAPOR DEPOSITION," Radiophysics and Quantum Electronics 58, 632-637 (2016).
  4. E. V. Gubarkova, V. V. Dudenkova, F. I. Feldchtein, L. B. Timofeeva, E. B. Kiseleva, S. S. Kuznetsov, A. A. Moiseev, G. V. Gelikonov, A. I. Vitkin, and N. D. Gladkova, "CHARACTERIZATION OF ATHEROSCLEROTIC PLAQUES BY CROSS-POLARIZATION OPTICAL COHERENCE TOMOGRAPHY," in Photonic Therapeutics and Diagnostics Xii, B. Choi, N. Kollias, H. Zeng, H. W. Kang, B. J. F. Wong, J. F. Ilgner, G. J. Tearney, K. W. Gregory, L. Marcu, M. C. Skala, P. J. Campagnola, and A. Mandelis, eds. (2016).
  5. S. S. Kuznetsov, V. V. Dudenkova, M. V. Kochueva, E. B. Kiseleva, N. Y. Ignatieva, O. L. Zakharkina, E. A. Sergeeva, K. V. Babak, and A. V. Maslennikova, "Multiphoton Microscopy in the Study of Morphological Characteristics of Radiation-Induced Injuries of the Bladder," Sovremennye Tehnologii V Medicine 8, 31-38 (2016).
  6. D. S. Kuznetsova, P. S. Timashev, V. V. Dudenkova, A. V. Meleshina, E. A. Antonov, L. I. Krotova, V. K. Popov, V. N. Bagratashvili, and E. V. Zagaynova, "Comparative Analysis of Proliferation and Viability of Multipotent Mesenchymal Stromal Cells in 3D Scaffolds with Different Architectonics," Bulletin of Experimental Biology and Medicine 160, 535-541 (2016).
  7. A. V. Meleshina, V. V. Dudenkova, M. V. Shirmanova, V. I. Shcheslavskiy, W. Becker, A. S. Bystrova, E. I. Cherkasova, and E. V. Zagaynova, "Probing metabolic states of differentiating stem cells using two-photon FLIM," Scientific Reports 6 (2016).
  8. M. S. Muravyeva, G. S. Zabrodina, M. A. Samsonov, E. A. Kluev, A. A. Khrapichev, M. A. Katkova, and I. V. Mukhina, "Water-soluble tetraaqua Ln(III) glycinehydroximate 15-metallacrown-5 complexes towards potential MRI contrast agents for ultra-high magnetic field," Polyhedron 114, 165-171 (2016).
  9. A. P. Savikin, A. S. Egorov, A. V. Budruev, and I. A. Grishin, "BiF3:Ho3+ system for upconversion of 2-mu m laser radiation into visible emission," Russian Journal of Applied Chemistry 89, 337-340 (2016).
  10. A. P. Savikin, A. S. Egorov, A. V. Budruev, and I. A. Grishin, "Conversion of two-micron radiation into visible light using glass and ceramics based on ZBLAN: DeD3/4(3+) and ZBLAN: Ho3+ + Yb3+," Glass Physics and Chemistry 42, 473-479 (2016).
  11. A. P. Savikin, A. S. Egorov, A. V. Budruev, and I. A. Grishin, "Ho3+-Doped ZrF4-BaF2-BiF3 Ceramic 2-A mu m laser beam visualizer," Inorganic Materials 52, 309-312 (2016).
  12. A. P. Savikin, A. S. Egorov, A. V. Budruev, and I. A. Grishin, "Visualization of 2-mu m radiation by BiF3:Ho3+ and BiF3:Ho3+/Yb3+ ceramics," Optics and Spectroscopy 120, 902-908 (2016).
  13. V. O. Smolski, H. Yang, S. D. Gorelov, P. G. Schunemann, and K. L. Vodopyanov, "Coherence properties of a 2.6-7.5 mu m frequency comb produced as a subharmonic of a Tm-fiber laser," Optics Letters 41, 1388-1391 (2016).
  14. A. B. Volovetsky, N. Y. Shilyagina, V. V. Dudenkova, S. O. Pasynkova, M. A. Grin, A. F. Mironov, A. V. Feofanov, I. V. Balalaeva, and A. V. Maslennikova, "Biodistribution of Amine-amide Chlorin e(6) Derivative Conjugate with a Boron Nanoparticle for Boron Neutron-Capture Therapy," Sovremennye Tehnologii V Medicine 8, 34-39 (2016).
  15. O. A. Zlobovskaya, T. F. Sergeeva, M. V. Shirmanova, V. V. Dudenkova, G. V. Sharonov, E. V. Zagaynova, and K. A. Lukyanov, "Genetically encoded far-red fluorescent sensors for caspase-3 activity," Biotechniques 60, 62-68 (2016).
  16. N.L. Aleksandrov, S.B. Bodrov, M.V. Tsarev, A.A. Murzanev, Y.A. Sergeev, Y.A. Malkov, A.N. Stepanov “Decay of femtosecond laser-induced plasma filaments in air, nitrogen, and argon for atmospheric and subatmospheric pressures,” Physical Review E, 94(1), 013204 (2016).
  17. M.V. Tsarev, D. Ehberger, P. Baum “High-average-power, intense THz pulses from a LiNbO3 slab with silicon output coupler,” Applied Physics B, 122(2), 30 (2016).
  18. A.P. Savikin, A.S. Egorov, A.V. Budruev, I.Y. Perunin, I.A. Grishin “Visualization of 1.908-μm radiation of a Tm: YLF laser using PbF2-based ceramics doped with Ho3+ ions,” Technical Physics Letters, 42(11), 1083-1086 (2016).
  19. V.B. Gildenburg, I.A. Pavlichenko “Volume nanograting formation in laser-silica interaction as a result of the 1D plasma-resonance ionization instability,” Physics of Plasmas, 23(8), 084502 (2016).
  20. V.B. Gildenburg, V.A. Kostin, I.A. Pavlichenko “Excitation of surface and volume plasmons in a metal nanosphere by fast electrons,” Physics of Plasmas, 23(3), 032120 (2016).

2015

  1. A. Andryieuski, S. M. Kuznetsova, and A. V. Lavrinenko, "Applicability of point-dipoles approximation to all-dielectric metamaterials," Physical Review B 92 (2015).
  2. A. Andryieuski, S. M. Kuznetsova, S. V. Zhukovsky, Y. S. Kivshar, and A. V. Lavrinenko, "Water: Promising Opportunities For Tunable All-dielectric Electromagnetic Metamaterials," Scientific Reports 5 (2015).
  3. M. I. Bakunov, S. M. Kuznetsova, and A. V. Maslov, "Tunable magnetic resonances of high-permittivity dielectric rings coated with graphene," Journal of Optics 17 (2015).
  4. V. V. Dudenkova, M. S. Murav'eva, A. I. Rybnikov, and Y. N. Zakharov, "ACHIEVEMENT OF SUPERRESOLUTION IN OPTICAL-THICKNESS MEASUREMENT AND STATISTICAL LOCALIZATION OF FLUOROPHORES IN HOLOGRAPHIC AND FLUORESCENT MICROSCOPY," Radiophysics and Quantum Electronics 57, 551-558 (2015).
  5. M. A. Katkova, G. S. Zabrodina, M. S. Muravyeva, A. A. Khrapichev, M. A. Samsonov, G. K. Fukin, and S. Y. Ketkov, "New experimental insights into the formation of unexpected water-soluble Eu(III)-Cu(II) 15-metallacrown-5 compound with acetate," Inorganic Chemistry Communications 52, 31-33 (2015).
  6. M. A. Katkova, G. S. Zabrodina, M. S. Muravyeva, A. S. Shavyrin, E. V. Baranov, A. A. Khrapichev, and S. Y. Ketkov, "Facile One-Pot Route toward Water-Soluble Lanthanide-Copper-Glycinehydroximate 15-Metallacrown-5 Complexes," European Journal of Inorganic Chemistry, 5202-5208 (2015).
  7. D. S. Kuznetsova, M. V. Shirmanova, V. V. Dudenkova, P. V. Subochev, I. V. Turchin, E. V. Zagaynova, S. A. Lukyanov, B. E. Shakhov, and V. A. Kamensky, "Photobleaching and phototoxicity of KillerRed in tumor spheroids induced by continuous wave and pulsed laser illumination," Journal of Biophotonics 8, 952-960 (2015).
  8. A. V. Meleshina, E. I. Cherkasova, M. V. Shirmanova, A. A. Khrapichev, V. V. Dudenkova, and E. V. Zagaynova, "Modern techniques for stem cells in vivo imaging," Sovremennye Tehnologii V Medicine 7, 174-186 (2015).
  9. M. S. Murav'eva, V. V. Dudenkova, A. I. Rybnikov, and Y. N. Zakharov, "PARALLEL MONITORING OF LIVING CELL CULTURES BY MEANS OF DIGITAL-HOLOGRAPHY AND FLUORESCENT MICROSCOPY," Radiophysics and Quantum Electronics 57, 577-583 (2015).
  10. M. V. Shirmanova, I. N. Druzhkova, M. M. Lukina, M. E. Matlashov, V. V. Belousov, L. B. Snopova, N. N. Prodanetz, V. V. Dudenkova, S. A. Lukyanov, and E. V. Zagaynova, "Intracellular pH imaging in cancer cells in vitro and tumors in vivo using the new genetically encoded sensor SypHer2," Biochimica Et Biophysica Acta-General Subjects 1850, 1905-1911 (2015).
  11. A. A. Silaev, O. V. Meshkov, M. Y. Emelin, N. V. Vvedenskii, and M. Y. Ryabikin, "Control of the photoelectron dynamics for the effective conversion of short-pulse, frequency-modulated optical radiation into X-ray radiation," Quantum Electronics 45, 393-400 (2015).
  12. S. A. Sychugin, E. A. Anisimov, and M. I. Bakunov, "Cherenkov-type terahertz emission from ultrafast magnetization in a slab of magnetooptic material," Journal of Optics 17 (2015).

2014

  1. M. I. Bakunov, E. A. Mashkovich, and E. V. Svinkina, "Asymmetric Cherenkov radiation for improved terahertz generation in the Si-prism-coupled LiNbO3 layer," Optics Letters 39, 6779-6782 (2014).
  2. M. I. Bakunov, A. V. Maslov, S. M. Kuznetsova, and S. N. Zhukov, "Magnetic response of planar dielectric rings," Photonics and Nanostructures-Fundamentals and Applications 12, 114-121 (2014).
  3. A. V. Maslov, S. M. Kuznetsova, M. Hangyo, and M. I. Bakunov, "Axial magnetic resonances of rotationally symmetric high-permittivity dielectric particles of arbitrary shape," Journal of Optics 16 (2014).
  4. D. G. Pavelyev, A. S. Skryl, and M. I. Bakunov, "High-resolution broadband terahertz spectroscopy via electronic heterodyne detection of photonically generated terahertz frequency comb," Optics Letters 39, 5669-5672 (2014).
  5. A. S. Skryl, D. G. Pavelyev, M. Y. Tretyakov, and M. I. Bakunov, "High-resolution terahertz spectroscopy with a single tunable frequency comb," Optics Express 22, 32276-32281 (2014).
  6. A. S. Skryl, J. B. Jackson, M. I. Bakunov, M. Menu, and G. A. Mourou, "Terahertz time-domain imaging of hidden defects in wooden artworks: application to a Russian icon painting," Applied Optics 53, 1033-1038 (2014).

2013

  1. S. D. Gorelov, E. A. Mashkovich, M. V. Tsarev, and M. I. Bakunov, "Terahertz Cherenkov radiation from ultrafast magnetization in terbium gallium garnet," Physical Review B 88 (2013).
  2. A. I. Rybnikov, V. V. Dudenkova, M. S. Murav'eva, and Y. N. Zakharov, "Using digital off-axis holograms to investigate changes of state of living neuronal cultures," Journal of Optical Technology 80, 457-462 (2013).

2012

  1. M. I. Bakunov, E. A. Mashkovich, M. V. Tsarev, and S. D. Gorelov, "Efficient Cherenkov-type terahertz generation in Si-prism-LiNbO3-slab structure pumped by nanojoule-level ultrashort laser pulses," Applied Physics Letters 101 (2012).

Методические пособия

2016

2015

2014

2011