Timofeev Ivan V.

Timofeev Ivan Vladimirovich

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IstinaResearcherID (IRID): 92993532
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Math-Net.Ru: 87058
ORCID: 0000-0002-6558-5607
Scopus ID: 7005379637
Researcher ID: D-8044-2012
Google scholar ID: Fz-zlbwAAAAJ
ArXiv ID: timofeev_i_1
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Guest editor: Special Issue in MDPI Materials "Soft Photonic Crystals and Metamaterials", until  31 March 2022

MDPI Photonics: Topical Advisory Panel Member

Professional affiliations: American Physical Society (APS), American Chemical Society (ACS), The International Liquid Crystal Society (ILCS),  The Optical Society (OSA)

Birth date: February 08, 1979

Phone: 7 (3912) 905637, 7 (3912) 905680

Fax: 7 (3912) 438923

E-mail: tiv@iph.krasn.ru

Address: Kirensky Institute of Physics FRC KSC SB RAS, Akademgorodok 50, 660036 Krasnoyarsk, Russia

Positions:

Education:

  • 1995 - Krasnoyarsk school №41, with honour
  • 2000 - Krasnoyarsk state university, diploma (equivalent to MS) with honor, theoretical physics
  • 2003 - PhD in optics, thesis «Electromagnetically induced transparency: propagation of short laser pulses» (abstract of the thesis in russian)
  • 2012 - Senior researcher
  • 2017 - DSc in optics, thesis «Localized modes in optics of resonant, nonlinear and anisotropic photonic crystals» (defence materials in russian)

Experience:

Scientific interests:

  • Qualitative, analytical, semi-analytical and numerical methods used to solve a variety of theoretical models.
  • The transfer-matrix method for the calculation of the transmission spectrum and field distribution in a heterogeneous medium. The extension to the case of a strongly nonlinear media, taking into account bistability by predictor-corrector algorithm, an analytical solution for the nonlinear film [Chen W., Mills D.L., PRL, 58, 1987]. The extension to the case of anisotropic media - Berreman and extended Jones methods.
  • The temporal and spatial coupled-mode theory (CMT). The extension to the multidimensional case - the Pendry method, scattering matrix method. Rigorous coupled-wave analysis (RCWA). Finite difference time-domain (FDTD) method. Finite element method (FEM).
  • Photonic crystal dispersion equations. The band structure of a two-dimensional photonic crystal - plane wave expansion method, its modification to account for resonant media [Belikov A.V., Bogdanovа M.V., Lozovik Yu.E. Mathematical modeling. 19, 19, 2007].
  • Pancharatnam-Berry geometric phase. Chirality. Bound states in the continuum. Topological photonics.
  • The three-dimensional Fourier transform to construct the diffraction reflections of quasiperiodic lattices.
  • The method of characteristics and rigid Adams scheme for evolutionary system of Maxwell-Bloch equations, density matrix method.
  • Soft matter optics, mechanics and hydrodynamics. The variation of the free energy and Frank moments in the elastic continuum theory of liquid crystals.
  • Poincare sphere. The construction of phase and configurational trajectories of the system on the sphere and hypersphere in stereographic projection.
  • interdisciplinary connections: optical analogies of gravity and quantum mechanics, artificial intelligence and complex systems
  • microlasers, vertical cavity lasers, photonic integral circuitry and devices
  • photovoltaic, photocatalytic and photosynthesis light harvesting
  • soft photonic materials, chiral photonic structures

Selected publications:

  • Arkhipkin V.G., Timofeev I. V. Spatial evolution of short laser pulses under coherent population trapping // Phys. Rev. A. 2001. Vol. 64, № 5. P. 053811. doi:10.1103/PhysRevA.64.053811
  • Timofeev I. V, Lin Y.T., Gunyakov V.A., Myslivets S.A., Arkhipkin V.G., Vetrov S.Y., Lee W., Zyryanov V.Y. Voltage-induced defect mode coupling in a one-dimensional photonic crystal with a twisted-nematic defect layer // Phys. Rev. E. 2012. Vol. 85, № 1. P. 011705(7). doi:10.1103/PhysRevE.85.011705
  • Vetrov S.Y., Bikbaev R.G., Timofeev I. V. Optical Tamm states at the interface between a photonic crystal and a nanocomposite with resonance dispersion // J. Exp. Theor. Phys. 2013. Vol. 117, № 6. P. 988–998. doi:10.1134/S1063776113140185
  • Timofeev I. V, Arkhipkin V.G., Vetrov S.Y., Zyryanov V.Y., Lee W. Enhanced light absorption with a cholesteric liquid crystal layer // Opt. Mater. Express. 2013. Vol. 3, № 4. P. 496. doi:10.1364/OME.3.000496
  • Timofeev I. V, Gunyakov V.A., Sutormin V.S., Myslivets S.A., Arkhipkin V.G., Vetrov S.Y., Lee W., Zyryanov V.Y. Geometric phase and o-mode blueshift in a chiral anisotropic medium inside a Fabry-Pérot cavity // Phys. Rev. E. 2015. Vol. 92, № 5. P. 052504. doi:10.1103/PhysRevE.92.052504
  • Timofeev I. V, Vetrov S.Y. Chiral optical Tamm states at the boundary of the medium with helical symmetry of the dielectric tensor // JETP Lett. 2016. Vol. 104, № 6. P. 380–383. doi:10.1134/S0021364016180119
  • Timofeev I. V, Pankin P.S., Vetrov S.Y., Arkhipkin V.G., Lee W., Zyryanov V.Y. Chiral Optical Tamm States: Temporal Coupled-Mode Theory // Crystals. 2017. Vol. 7, № 4. P. 113. doi:10.3390/cryst7040113
  • Timofeev I. V, Maksimov D.N., Sadreev A.F. Optical defect mode with tunable Q factor in a one-dimensional anisotropic photonic crystal // Phys. Rev. B. American Physical Society, 2018. Vol. 97, № 2. P. 024306. doi:10.1103/PhysRevB.97.024306
  • Vetrov S.Y., Timofeev I. V., Shabanov V.F. Localized modes in chiral photonic structures // Uspekhi Fiz. Nauk. 2020. Vol. 63, № 1. P. 33–56. doi:10.3367/UFNe.2018.11.038490
  • Timofeev I. V, Lee W. Soft Photonic Crystals and Metamaterials. Basel, Switzerland: MDPI, 2023. 138 p. doi:10.3390/books978-3-0365-6073-1

List of publications and conference proceedings, partially in Russian.

 

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