Лаборатория Нанотехнологий, спектроскопии и квантовой химии

Лаборатория Нанотехнологий, спектроскопии и квантовой химии

Зав. лабораторией: Тимофеев Иван Владимирович (ITimofeev@sfu-kras.ru)
Лаборатория располагается: ул. Киренского, 28, ауд. Б224 
Телефон: +7 (391) 290-05-37
Основное научное направление: Фотоника, новые оптические материалы, автоматизация и моделирование

Научная деятельность

Семинары

Совместно с лабораторией фотоники молекулярных систем ИФ СО РАН проводится регулярный научно-образовательный семинар по общей теме «ФОТОНИКА». Расписание семинаров вы можете узнать, вы можете узнать посетив страницу семинара .

Гранты

Сотрудники лаборатории принимают участие в реализации проектов Российского фонда фундаментальных исследований (РФФИ):

  • Грант № 19-42-240004 «Гибридные состояния локализованных мод в одномерных фотоннокристаллических структурах, содержащих резонансные и анизотропные материалы» руководитель проекта д.ф.-м.н., профессор Ветров Степан Яковлевич
  • Грант № 18-32-00053 «Оптические таммовские состояния на границе фотонного кристалла и материалов с близкой к нулю диэлектрической проницаемостью» руководитель проекта к.ф.-м.н., Бикбаев Рашид Гельмединович
  • Грант № 18-42-243025 «Локализованные и гибридные моды фотоннокристаллических структур на основе структурно хиральных и резонансных нанокомпозитных сред» руководитель проекта к.ф.-м.н., Пятнов Максим Владимирович

Публикации

  1. Vetrov, S.Y., Timofeev, I.V., Shabanov, V.F. (2020).Localized modes in chiral photonic structures. Physics-Uspekhi,63(1) 33-56.
    DOI:10.3367/UFNe.2018.11.038490 
  2. Tsipotan, A.S., Tkachenko, V.A., Aleksandrovsky, A.S. and 1 more (…) (2020).Laser-induced self-assembly of quantum dots: Deterministic case versus brownian case. Photonics and Nanostructures — Fundamentals and Applications,40.
    DOI:10.1016/j.photonics.2020.100791 
  3. Sukhanova, E.V., Visotin, M.A., Popov, Z.I. and 1 more (…) (2020).Stability and gas sensing properties of Ta2X3M8(X = Pd, Pt; M = S, Se) nanoribbons: A first-principles investigation. Physical Chemistry Chemical Physics,22(26) 14651-14659.
    DOI:10.1039/d0cp01545h 
  4. Bikbaev, R.G., Vetrov, S.Y., Timofeev, I.V. (2020).Hybrid Tamm and surface plasmon polaritons in resonant photonic structure. Journal of Quantitative Spectroscopy and Radiative Transfer,253.
    DOI:10.1016/j.jqsrt.2020.107156 
  5. Bikbaev, R.G., Vetrov, S.Ya., Timofeev, I.V. (2020).Erratum: Transparent conductive oxides for the epsilon-near-zero Tamm plasmon polaritons (Journal of the Optical Society of America B (2019) 36 (2817–2823) DOI: 10.1364/JOSAB.36.002817). Journal of the Optical Society of America B: Optical Physics,37(1) .
    DOI:10.1364/JOSAB.385427 
  6. Vyunishev, A.M., Arkhipkin, V.G. (2020).Quasi-phase-matched second-harmonic generation in nonlinear crystals with harmonic modulation of nonlinearity. Laser Physics,30(4) .
    DOI:10.1088/1555-6611/ab7381 
  7. Pankin, P.S., Wu, B.-R., Yang, J.-H. and 3 more (…) (2020).One-dimensional photonic bound states in the continuum. Communications Physics,3(1) .
    DOI:10.1038/s42005-020-0353-z 
  8. Kuz’menok, N.M., Mikhalyonok, S.G., Arol, A.S. and 7 more (…) (2020).Synthesis of organotriphenylphosphonium halides, quaternary ammonium salts and study of their application as surfactants soluble in liquid crystals. Zhidkie Kristally i Ikh Prakticheskoe Ispol’zovanie,20(1) 6-18.
    DOI:10.18083/LCAppl.2020.1.6 
  9. Gunyakov, V.A., Krakhalev, M.N., Timofeev, I.V. and 2 more (…) (2020).Optical modes of multilayered photonic structure containing nematic layer with abnormal electroconvective rolls. Optical Materials,100.
    DOI:10.1016/j.optmat.2019.109630 
  10. Bikbaev, R.G., Vetrov, S.Ya., Timofeev, I.V. (2020).Erratum: Transparent conductive oxides for the epsilon-near-zero Tamm plasmon polaritons (Journal of the Optical Society of America B (2019) 36 (2817–2823) DOI: 10.1364/JOSAB.36.002817). Journal of the Optical Society of America B: Optical Physics,37(1) .
    DOI:10.1364/JOSAB.37.000167 
  11. Azarapin, N.O., Aleksandrovsky, A.S., Atuchin, V.V. and 6 more (…) (2020).Synthesis, structural and spectroscopic properties of orthorhombic compounds BaLnCuS3 (Ln = Pr, Sm). Journal of Alloys and Compounds,832.
    DOI:10.1016/j.jallcom.2019.153134 
  12. Kuklin, A.V., Visotin, M.A., Baek, W. and 1 more (…) (2020).CrI3 magnetic nanotubes: A comparative DFT and DFT+U study, and strain effect. Physica E: Low-Dimensional Systems and Nanostructures,123.
    DOI:10.1016/j.physe.2020.114205 
  13. Parshin, A.M., Sutormin, V.S., Zyryanov, V.Y. and 1 more (…) (2020).Polar anchoring energy and tilt angle measured by magneto-optical technique in nematic doped with ionic surfactant. Liquid Crystals,.
    DOI:10.1080/02678292.2020.1733683 
  14. Kuz’min, V.I., Visotin, M.A., Nikolaev, S.V. and 1 more (…) (2020).Doping and temperature evolution of pseudogap and spin-spin correlations in the two-dimensional Hubbard model. Physical Review B,101(11) .
    DOI:10.1103/PhysRevB.101.115141 
  15. Krakhalev, M.N., Prishchepa, O.O., Sutormin, V.S. and 3 more (…) (2020).Electrically induced transformations of defects in cholesteric layer with tangential-conical boundary conditions. Scientific Reports,10(1) .
    DOI:10.1038/s41598-020-61713-9 
  16. Krylova, S.N., Aleksandrovsky, A.S., Roginskii, E.M. and 3 more (…) (2020).Optical properties of the HoGa3(BO3)4 crystal: experiment and ab initio calculation. Ferroelectrics,559(1) 135-140.
    DOI:10.1080/00150193.2020.1722015 
  17. Lim, C.S., Atuchin, V.V., Aleksandrovsky, A.S. and 3 more (…) (2020).Erratum: Fabrication of microcrystalline NaPbLa(WO4)3:Yb3+/Ho3+ phosphors and their upconversion photoluminescent characteristics [Korean J. Mater. Res., 29 (2019) (741)] DOI:10.3740/MRSK.2019.29.12.741. Korean Journal of Materials Research,31(1) .
    DOI:10.3740/MRSK.2020.30.1.50 
  18. Lim, C.S., Aleksandrovsky, A.S., Atuchin, V.V. and 2 more (…) (2020).Microwave sol-gel synthesis, microstructural and spectroscopic properties of scheelite-type ternary molybdate upconversion phosphor NaPbLa(MoO4)3:Er3+/Yb3+. Journal of Alloys and Compounds,826.
    DOI:10.1016/j.jallcom.2019.152095 
  19. Bychek, A.A., Muraev, P.S., Maksimov, D.N. and 2 more (…) (2020).Chaotic and regular dynamics in the three-site Bose-Hubbard model. AIP Conference Proceedings,2241.
    DOI:10.1063/5.0011540 
  20. Ershov, A.E., Bikbaev, R.G., Rasskazov, I.L. and 4 more (…) (2020).Collective resonances in hybrid photonic-plasmonic nanostructures. Journal of Physics: Conference Series,1461(1) .
    DOI:10.1088/1742-6596/1461/1/012046 
  21. Denisenko, Yu.G., Sal’nikova, E.I., Basova, S.A. and 8 more (…) (2020).Synthesis of samarium oxysulfateSm2O2SO4 in the high-temperature oxidation reaction and its structural, thermal and luminescent properties. Molecules,25(6) .
    DOI:10.3390/molecules25061330 
  22. Kostyukov, A.I., Snytnikov, V.N., Snytnikov, V.N. and 5 more (…) (2020).Luminescence of monoclinic Y2O3:Eu nanophosphor produced via laser vaporization. Optical Materials,104.
    DOI:10.1016/j.optmat.2020.109843 
  23. Begunovich, L.V., Kuklin, A.V., Visotin, M.A. and 5 more (…) (2020).Triple VTe2/graphene/VTe2 heterostructures as perspective magnetic tunnel junctions. Applied Surface Science,510.
    DOI:10.1016/j.apsusc.2020.145315 
  24. Chepkasov, I.V., Baidyshev, V.S., Sukhanova, E.V. and 3 more (…) (2020).Iron silicides formation on Si (100) and (111) surfaces through theoretical modeling of sputtering and annealing. Applied Surface Science,527.
    DOI:10.1016/j.apsusc.2020.146736 
  25. Bychek, A.A., Muraev, P.S., Maksimov, D.N. and 1 more (…) (2020).Open Bose-Hubbard chain: Pseudoclassical approach. Physical Review E,101(1) .
    DOI:10.1103/PhysRevE.101.012208 
  26. Razumkova, I.A., Denisenko, Y.G., Boyko, A.N. and 4 more (…) (2019).Synthesis and Upconversion Luminescence in LaF3:Yb3+, Ho3+, GdF3: Yb3+, Tm3+ and YF3:Yb3+, Er3+ obtained from Sulfide Precursors. Zeitschrift fur Anorganische und Allgemeine Chemie,645(24) 1393-1401.
    DOI:10.1002/zaac.201900204 
  27. Sal’nikova, E.I., Denisenko, Y., Aleksandrovsky, A.S. and 7 more (…) (2019).Synthesis and optical properties RE2O2S:Ln (RE = La, Y; Ln = Ce, Eu, Dy, Er). Journal of Solid State Chemistry,279.
    DOI:10.1016/j.jssc.2019.120964 
  28. Krakhalev, M.N., Sutormin, V.S., Prishchepa, O.O. and 4 more (…) (2019).Anionic-cationic surfactant mixture providing the electrically controlled homeotropic surface anchoring of liquid crystals. Journal of Molecular Liquids,28257-62.
    DOI:10.1016/j.molliq.2019.02.132 
  29. Atuchin, V.V., Aleksandrovsky, A.S., Bazarov, B.G. and 10 more (…) (2019).Exploration of structural, vibrational and spectroscopic properties of self-activated orthorhombic double molybdate RbEu(MoO4)2 with isolated MoO4 units. Journal of Alloys and Compounds,785692-697.
    DOI:10.1016/j.jallcom.2019.01.013 
  30. Kornienko, V.S., Tsipotan, A.S., Aleksandrovsky, A.S. and 1 more (…) (2019).Brownian dynamics of the self-assembly of complex nanostructures in the field of quasi-resonant laser radiation. Photonics and Nanostructures — Fundamentals and Applications,35.
    DOI:10.1016/j.photonics.2019.100707 
  31. Bulgakov, E.N., Maksimov, D.N. (2019).Nonlinear response from optical bound states in the continuum. Scientific Reports,9(1) .
    DOI:10.1038/s41598-019-43672-y 
  32. Myagkov, V.G., Matsynin, A.A., Bykova, L.E. and 6 more (…) (2019).Solid-state synthesis and characterization of ferromagnetic Mn5Ge3 nanoclusters in GeO/Mn thin films. Journal of Alloys and Compounds,782632-640.
    DOI:10.1016/j.jallcom.2018.12.126 
  33. Kornienko, V.S., Tsipotan, A.S., Aleksandrovsky, A.S. and 1 more (…) (2019).The possibility of self-assembly of complex nanostructures with pre-defined geometry under the action of laser field. AIP Conference Proceedings,2164.
    DOI:10.1063/1.5130841 
  34. Vyunishev, A.M., Myslivets, S.A., Fokin, V.A. and 6 more (…) (2019).Dual wavelength Talbot self-imaging using facet patterned nonlinear crystals. Optics Letters,44(15) 3761-3764.
    DOI:10.1364/OL.44.003761 
  35. Pankin, P.S., Vetrov, S.Y., Timofeev, I.V. (2019).Tamm plasmon in a structure with the nanocomposite containing spheroidal core-shell particles. Journal of Optics (United Kingdom),21(3) .
    DOI:10.1088/2040-8986/ab04d8 
  36. Denisenko, Y.G., Molokeev, M.S., Krylov, A.S. and 7 more (…) (2019).High-temperature oxidation of europium (II) sulfide. Journal of Industrial and Engineering Chemistry,7962-70.
    DOI:10.1016/j.jiec.2019.05.006 
  37. Bulgakov, E.N., Maksimov, D.N. (2019).Q -factor optimization in dielectric oligomers. Physical Review A,100(3) .
    DOI:10.1103/PhysRevA.100.033830 
  38. Krakhalev, M.N., Prishchepa, O.O., Sutormin, V.S. and 1 more (…) (2019).Polymer dispersed nematic liquid crystal films with conical boundary conditions for electrically controllable polarizers. Optical Materials,891-4.
    DOI:10.1016/j.optmat.2019.01.004 
  39. Bikbaev, R.G., Vetrov, S.Y., Timofeev, I.V. (2019).Epsilon-near-zero absorber by Tamm plasmon polariton. Photonics,6(1) .
    DOI:10.3390/photonics6010028 
  40. Gerasimov, V.S., Ershov, A.E., Bikbaev, R.G. and 4 more (…) (2019).Engineering mode hybridization in regular arrays of plasmonic nanoparticles embedded in 1D photonic crystal. Journal of Quantitative Spectroscopy and Radiative Transfer,224303-308.
    DOI:10.1016/j.jqsrt.2018.11.028 
  41. Ruseikina, A.V., Solovyov, L.A., Chernyshev, V.А. and 10 more (…) (2019).Synthesis, structure, and properties of EuErCuS3. Journal of Alloys and Compounds,805779-788.
    DOI:10.1016/j.jallcom.2019.07.059 
  42. Tambasov, I.A., Voronin, A.S., Evsevskaya, N.P. and 12 more (…) (2019).Thermoelectric properties of low-cost transparent single wall carbon nanotube thin films obtained by vacuum filtration. Physica E: Low-Dimensional Systems and Nanostructures,114.
    DOI:10.1016/j.physe.2019.113619 
  43. Kornienko, V.S., Tsipotan, A.S., Aleksandrovsky, A.S. and 1 more (…) (2019).Self-organized aggregation of a triple of colloidal quantum dots into stable structures with various shapes controlled by a laser field. NANOCON 2018 — Conference Proceedings, 10th Anniversary International Conference on Nanomaterials — Research and Application,14-17.
    DOI:- 
  44. Arkhipkin, V.G., Myslivets, S.A. (2019).Talbot effect based on a Raman-induced grating. Physical Review A,100(6) .
    DOI:10.1103/PhysRevA.100.063835 
  45. Ikonnikov, D.A., Arkhipkin, V.G., Vyunishev, A.M. (2019).Controlling multiple diffraction with quasiperiodic gratings. Laser Physics Letters,16(12) .
    DOI:10.1088/1612-202X/ab5845 
  46. Bikbaev, R.G., Ya Vetrov, S., Timofeev, I.V. (2019).Transparent conductive oxides for the epsilon-near-zero Tamm plasmon polaritons. Journal of the Optical Society of America B: Optical Physics,36(10) 2817-2823.
    DOI:10.1364/JOSAB.36.002817 
  47. Bulgakov, E.N., Maksimov, D.N. (2019).Bound states in the continuum and Fano resonances in the Dirac cone spectrum. Journal of the Optical Society of America B: Optical Physics,36(8) 2221-2225.
    DOI:10.1364/JOSAB.36.002221 
  48. Rudakova, N.V., Timofeev, I.V., Bikbaev, R.G. and 3 more (…) (2019).Chiral optical Tamm states at the interface between an all-dielectric polarization-preserving anisotropic mirror and a cholesteric liquid crystal. Crystals,9(10) .
    DOI:10.3390/cryst9100502 
  49. Vyunishev, A.M., Bikbaev, R.G., Svyakhovskiy, S.E. and 6 more (…) (2019).Broadband Tamm plasmon polariton. Journal of the Optical Society of America B: Optical Physics,36(8) 2299-2305.
    DOI:10.1364/JOSAB.36.002299 
  50. Lim, C.S., Atuchin, V.V., Aleksandrovsky, A.S. and 3 more (…) (2019).Fabrication of microcrystalline NaPbLa(WO4)3: Yb3+/Ho3+(x = Yb3+/Ho3+ phosphors and their upconversion photoluminescent characteristics. Korean Journal of Materials Research,29(12) 741-746.
    DOI:10.3740/MRSK.2019.29.12.741 
  51. Krakhalev, M.N., Bikbaev, R.G., Sutormin and 2 more (…) (2019).Nematic and cholesteric liquid crystal structures in cells with tangential-conical boundary conditions. Crystals,9(5) .
    DOI:10.3390/cryst9050249 
  52. Fedorov, A.S., Krasnov, P.O., Visotin, M.A. and 3 more (…) (2019).Charge-transfer plasmons with narrow conductive molecular bridges: A quantum-classical theory. Journal of Chemical Physics,151(24) .
    DOI:10.1063/1.5131734 
  53. Mikhaleva, N.S., Visotin, M.A., Popov, Z.I. (2019).Theoretical investigation of NiI2 based bilayer heterostructures. Key Engineering Materials,80610-16.
    DOI:10.4028/www.scientific.net/KEM.806.10 
  54. Vyunishev, A.M., Arkhipkin, V.G., Baturin, I.S. and 3 more (…) (2018).Multiple nonlinear Bragg diffraction of femtosecond laser pulses in a χ2 photonic lattice with hexagonal domains. Laser Physics Letters,15(4) .
    DOI:10.1088/1612-202X/aaa618 
  55. Wu, P.-C., Wu, G.-W., Timofeev, I.V. and 2 more (…) (2018).Electro-thermally tunable reflective colors in a self-organized cholesteric helical superstructure. Photonics Research,6(12) 1094-1100.
    DOI:10.1364/PRJ.6.001094 
  56. Kornienko, V.S., Tkachenko, V.A., Tsipotan, A.S. and 2 more (…) (2018).Self-organized aggregation of a triple of resonant nanoparticles into stable structures with various shapes controlled by a laser field. Journal of Physics: Conference Series,1092.
    DOI:10.1088/1742-6596/1092/1/012153 
  57. Gunyakov, V.A., Timofeev, I.V., Krakhalev, M.N. and 2 more (…) (2018).Electric field-controlled transformation of the eigenmodes in a twisted-nematic Fabry–Pérot cavity. Scientific Reports,8(1) .
    DOI:10.1038/s41598-018-35095-y 
  58. Wu, P.-C., Chen, H.-L., Rudakova, N.V. and 3 more (…) (2018).Electro-optical and dielectric properties of polymer-stabilized blue phase liquid crystal impregnated with a fluorine-containing compound. Journal of Molecular Liquids,267138-143.
    DOI:10.1016/j.molliq.2017.12.062 
  59. Shamshurin, A.V., Kuzovatov, I.A., Tsipotan, A.S. and 1 more (…) (2018).Inversionless amplification of light by molecules selectively oriented over states in the field of laser radiation. Quantum Electronics,48(11) 1076-1082.
    DOI:10.1070/QEL16741 
  60. Popov, A.K., Myslivets, S.A., Slabko, V.V. and 2 more (…) (2018).Shaping light in backward-wave nonlinear hyperbolic metamaterials. Photonics,5(2) .
    DOI:10.3390/photonics5020008 
  61. Arkhipkin, V.G., Myslivets, S.A. (2018).One- and two-dimensional Raman-induced diffraction gratings in atomic media. Physical Review A,98(1) .
    DOI:10.1103/PhysRevA.98.013838 
  62. Bulgakov, E.N., Maksimov, D.N. (2018).Avoided crossings and bound states in the continuum in low-contrast dielectric gratings. Physical Review A,98(5) .
    DOI:10.1103/PhysRevA.98.053840 
  63. Bulgakov, E.N., Maksimov, D.N. (2018).Optical response induced by bound states in the continuum in arrays of dielectric spheres. Journal of the Optical Society of America B: Optical Physics,35(10) 2443-2452.
    DOI:10.1364/JOSAB.35.002443 
  64. Pyatnov, M.V., Timofeev, I.V., Vetrov, S.Y. and 1 more (…) (2018).Coupled chiral optical Tamm states in cholesteric liquid crystals. Photonics,5(4) .
    DOI:10.3390/photonics5040030 
  65. Kuz’menok, N.M., Mikhalyonok, S.G., Arol, A.S. and 5 more (…) (2018).Synthesis and study of anisotropic ammonium salts for production of liquid-crystalline materials and devices with variable surface anchoring. Zhidkie Kristally i Ikh Prakticheskoe Ispol’zovanie,18(4) 27-39.
    DOI:10.18083/LCAPPL.2018.4.27 
  66. Pyatnov, M.V., Vetrov, S.Y., Timofeev, I.V. (2018).Tunable hybrid optical modes in a bounded cholesteric liquid crystal with a twist defect. Physical Review E,97(3) .
    DOI:10.1103/PhysRevE.97.032703 
  67. Denisenko, Y.G., Aleksandrovsky, A.S., Atuchin, V.V. and 5 more (…) (2018).Exploration of structural, thermal and spectroscopic properties of self-activated sulfate Eu2(SO4)3 with isolated SO4 groups. Journal of Industrial and Engineering Chemistry,68109-116.
    DOI:10.1016/j.jiec.2018.07.034 
  68. Sukhachev, A.L., Malakhovskii, A.V., Aleksandrovsky, A.S. and 2 more (…) (2018).Spectroscopic properties of HoFe3(BO3)4, NdFe3(BO3)4 and Ho0.75Nd0.25Fe3(BO3)4 single crystals. Optical Materials,8387-92.
    DOI:10.1016/j.optmat.2018.05.078 
  69. Tarasov, I., Popov, Z., Visotin, M. and 2 more (…) (2018).Effect of chemical ordering on optical properties of Fe3Si epitaxial films. EPJ Web of Conferences,185.
    DOI:10.1051/epjconf/201818503014 
  70. Tambasov, I.A., Voronin, A.S., Evsevskaya, N.P. and 7 more (…) (2018).Structural and Thermoelectric Properties of Optically Transparent Thin Films Based on Single-Walled Carbon Nanotubes. Physics of the Solid State,60(12) 2649-2655.
    DOI:10.1134/S1063783418120296 
  71. Kornienko, V.S., Tsipotan, A.S., Slabko, V.V. (2018).Self-assembly of three nanoparticles in structures with a predetermined geometry controlled by quasiresonant laser fied. Journal of Siberian Federal University — Mathematics and Physics,11(6) 702-711.
    DOI:10.17516/1997-1397-2018-11-6-702-711 
  72. Manakhov, A., Fuková, Š., Nečas, D. and 6 more (…) (2018).Analysis of epoxy functionalized layers synthesized by plasma polymerization of allyl glycidyl ether. Physical Chemistry Chemical Physics,20(30) 20070-20077.
    DOI:10.1039/c8cp01452c 
  73. Manakhov, A., Kiryukhantsev-Korneev, P., Michlíček, M. and 6 more (…) (2018). Grafting of carboxyl groups using CO 2 /C 2 H 4 /Ar pulsed plasma: Theoretical modeling and XPS derivatization . Applied Surface Science,4351220-1227.
    DOI:10.1016/j.apsusc.2017.11.174 
  74. Tkachenko, V.A., Popov, A.K., Tsipotan, A.S. and 1 more (…) (2018).Transient time in nonlinear interaction of counterpropagating waves with the effect of pump absorption and phase mismatching. Journal of Physics: Conference Series,1092.
    DOI:10.1088/1742-6596/1092/1/012154 
  75. Bulgakov, E.N., Maksimov, D.N., Semina, P.N. and 1 more (…) (2018).Propagating bound states in the continuum in dielectric gratings. Journal of the Optical Society of America B: Optical Physics,35(6) 1218-1222.
    DOI:10.1364/JOSAB.35.001218 
  76. Timofeev, I.V., Maksimov, D.N., Sadreev, A.F. (2018).Optical defect mode with tunable Q factor in a one-dimensional anisotropic photonic crystal. Physical Review B,97(2) .
    DOI:10.1103/PhysRevB.97.024306 
  77. Sutormin, V.S., Krakhalev, M.N., Prishchepa, O.O. and 1 more (…) (2018).Electrically induced anchoring transition in cholesteric liquid crystal cells with different confinement ratios. Liquid Crystals,45(8) 1129-1136.
    DOI:10.1080/02678292.2017.1416504 
  78. Bikbaev, R.G., Vetrov, S.Y., Timofeev, I.V. (2018).Two types of localized states in a photonic crystal bounded by an epsilon near zero nanocomposite. Photonics,5(3) .
    DOI:10.3390/photonics5030022 
  79. Parshin, A.M., Sutormin, V.S., Zyryanov, V.Ya. and 1 more (…) (2018).Influence of ionic surfactant on the anchoring energy of liquid crystal with a surface investigated using magnetic threshold fields of freedericksz transition. Woman in Russian Society,18(3) 59-66.
    DOI:10.18083/LCAppl.2018.3.59 
  80. Denisenko, Y.G., Atuchin, V.V., Molokeev, M.S. and 5 more (…) (2018).Structure, Thermal Stability, and Spectroscopic Properties of Triclinic Double Sulfate AgEu(SO4)2 with Isolated SO4 Groups. Inorganic Chemistry,57(21) 13279-13288.
    DOI:10.1021/acs.inorgchem.8b01837 
  81. Chepkasov, I.V., Visotin, M.A., Kovaleva, E.A. and 3 more (…) (2018).Stability and Electronic Properties of PtPd Nanoparticles via MD and DFT Calculations. Journal of Physical Chemistry C,122(31) 18070-18076.
    DOI:10.1021/acs.jpcc.8b04177 
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Учебная деятельность

Сотрудники лаборатории ведут занятия для студентов и магистров по следующим специальностям:

  • Ветров Степан Яковлевич дисциплина «Оптика фотонных кристаллов» для направления: 16.04.01 Техническая физика. Образовательные программы: 16.04.01.01 Физика ультрадисперсных и наноструктур, 16.04.01.02 Оптическая физика и квантовая электроника.
  • Тимофеев Иван Владимирович дисциплина «Теория вероятностей и математическая статистика» для направления 03.03.02 Физика и 14.03.02 Ядерные физика и технологии.
  • Слабко Виталий Васильевич дисциплина «Нанофотоника» и «Нелинейная оптика» по направлению 16.04.01-Техническая физика и 03.06.01-Физика и астрономия.

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