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Viktor Podolskiy

Viktor Podolskiy

Home Research
Viktor Podolskiy faculty bio headshot
Viktor A Podolskiy Professor, Assistant Chair, Graduate Coordinator

Expertise

Theoretical and Computational Photonics of Metamaterials, Photonic Crystals, and Complex Media

Research Interests

Computational and theoretical photonics and plasmonics in composites, metamaterials, and multi-scale systems.

Education

  • Ph D: Physics, (2002), New Mexico State University - New Mexico
    Dissertation/Thesis Title: Optical properties of nanocomposites: percolation films, nanowires and nanoholes
  • MS: Computer Science, (2001), New Mexico State University - New Mexico
  • BS: Applied Mathematics and Physics, (1998), Moscow Institute of Physics and Technology - Moscow, Russia
    Dissertation/Thesis Title: Exact numerical renormalization method

Selected Publications

  • Roberts, C., Podolskiy, V. (2017). Metasurface-Enhanced Transparency. arXiv preprint arXiv:1701.05867.
  • Wells, B., Ginzburg, P., Podolskiy, V., Zayats, A.V. (2017). Spontaneous Emission in Nonlocal Metamaterials with Spatial Dispersion (pp. 237–277). Springer International Publishing
  • Roberts, C., Liu, R., Zhao, X., Yu, L., Mohseni, P., Li, X., Wasserman, D., ., Podolskiy, V. (2016). Buried extraordinary optical transmission. 2016 Conference on Lasers & Electro-Optics (CLEO)!!!, (1:).
  • Yao, R., Lee, C.-S., ., Podolskiy, V., Guo, W. (2016). Electrically Injected Single Transverse-Mode Coupled Waveguide Lasers by Parity-time (PT) Symmetry. arXiv preprint arXiv:1611.07888.
  • Liu, R., Zhao, X., Roberts, C., Yu, L., Mohseni, P.K., Li, X., Podolskiy, V., Wasserman, D. (2016). Enhanced Optical Transmission through MacEtch-Fabricated Buried Metal Gratings. Advanced Materials, 28(7) 1441–1448.
  • Liu, R., Roberts, C.M., Zhong, Y., Podolskiy, V., Wasserman, D. (2016). Epsilon-Near-Zero Photonics Wires. ACS Photonics, 3(6) 1045 - 1052.
  • Liu, R., Roberts, C., Zhong, Y., , ., Podolskiy, V., Wasserman, D. (2016). Epsilon-Near-Zero Photonics Wires for Mid-Infrared Optical Lumped Circuitry. arXiv preprint arXiv:1604.04576.
  • Roberts, C., Podolskiy, V. (2016). Multiscale metasurfaces for enhanced light extraction. 2016 Conference on Lasers & Electro-Optics (CLEO)!!!, (1:).
  • Podolskiy, V., Wells, B., Marino, G., Zayats, A.V. (2016). Nonlinear optics in nonlocal nanowire metamaterials (Conference Presentation) (9918: pp. 99180G-99180G-1). Proc. SPIE
  • Roth, D., Nasir, M.E., Krasavin, A.V., Ginzburg, P., Dickson, W., Le Marois, A., Suhling, K., Richards, D.R., Podolskiy, V., Zayats, A.V. (2016). Spontaneous emission and non-radiative processes inside a hyperbolic metamaterial (Conference Presentation) (9920: pp. 99201A-99201A-1). Proc. SPIE
  • Roberts, C.M., Olivier, N., Wardley, W.P., Inampudi, S., Dickson, W., Zayats, A.V., Podolskiy, V. (2016). Interscale mixing microscopy: far-field imaging beyond the diffraction limit. Optica, 3(8) 803–808.
  • Roberts, C.M., Liu, R., Zhao, X., Yu, L., Li, X., Wasserman, D.M., Podolskiy, V. (2015). Colossal optical transmission through buried metal gratings (Presentation Recording) (pp. 95441E–95441E).
  • Roberts, C., Inampudi, S., Podolskiy, V. (2015). Diffraction Interface Theory: A nonlocal approach to metasurfaces (pp. FTu1C–4).
  • Roberts, C.M., Inampudi, S., Podolskiy, V. (2015). Diffractive interface theory: nonlocal susceptibility approach to the optics of metasurfaces. Optics express, 23(3) 2764–2776.
  • Liu, R., Zhao, X., Roberts, C., Yu, L., Mohseni, P.K., Li, X., Podolskiy, V., Wasserman, D. (2015). Enhanced Optical Transmission through MacEtch-Fabricated Buried Metal Gratings. Advanced Materials.
  • Podolskiy, V., Ginzburg, P., Wells, B., Zayats, A.V. (2015). Light emission in nonlocal plasmonic metamaterials. Faraday Discuss., 178 61–70.
  • Vasilantonakis, N., Wurtz, G., Podolskiy, V., Zayats, A. (2015). Refractive index sensing with hyperbolic metamaterials: strategies for biosensing and nonlinearity enhancement. Optics Express, 23(11) 14329–14343.
  • Roberts, C.M., Inampudi, S., Podolskiy, V. (2014). Diffractive Interface Theory: Nonlocal polarizability approach to the optics of metasurfaces. arXiv preprint arXiv:1408.3155.
  • Tsai, K., Wurtz, G.A., Chu, J., Cheng, T., Wang, H., Krasavin, A.V., He, J., Wells, B.M., Podolskiy, V., Wang, J., others, . (2014). Looking into meta-atoms of plasmonic nanowire metamaterial. Nano letters, 14(9) 4971–4976.
  • Wells, B.M., Roberts, C.M., Podolskiy, V. (2014). Metamaterials-based Salisbury screens with reduced angular sensitivity. Applied Physics Letters, 105(16) 161105.
  • Law, S., Roberts, C., Inampudi, S., Rosenberg, A., Podolskiy, V., Wasserman, D. (2014). Mid-IR Plasmonics with Engineered Semiconductor Metals (pp. OW1D–3).
  • Inampudi, S., Kuhta, N.A., Podolskiy, V. (2014). Numerically Stable Reconstruction of Wavelength-Scale Objects with Sub-Wavelength Resolution (pp. FF2C–7).
  • Podolskiy, V., Wells, B., Zayats, A. (2014). Additional waves in nonlocal nanowire metamaterials (pp. 11-12). Proceedings - 2014 Summer Topicals Meeting Series, SUM 2014
  • Roberts, C., Law, S., Kilpatrick, T., Yu, L., Ribaudo, T., Shaner, E., Wasserman, D., Podolskiy, V. (2014). All semiconductor negative-index plasmonic absorbers. Optics InfoBase Conference Papers
  • Law, S., Roberts, C., Inampudi, S., Streyer, W., Rosenberg, A., Podolskiy, V., Wasserman, D. (2014). Making the Mid-IR nano with epitaxial plasmonic devices (pp. 249-250). Device Research Conference - Conference Digest, DRC
  • Streyer, W., Law, S., Rosenberg, A., Roberts, C., Podolskiy, V., Hoffman, A., Wasserman, D. (2014). Engineering absorption and blackbody radiation in the far-infrared with surface phonon polaritons on gallium phosphide. Applied Physics Letters, 104(13) 131105.
  • Mayy, M., Zhu, G., Webb, A., Ferguson, H., Norris, T., Podolskiy, V., Noginov, M. (2014). Toward parametric amplification in plasmonic systems: Second harmonic generation enhanced by surface plasmon polaritons. Optics Express, 22(7) 7773-7782.
  • Inampudi, S., Adams, D., Ribaudo, T., Slocum, D., Vangala, S., Goodhue, W., Wasserman, D., Podolskiy, V. (2014). ε -Near-zero enhanced light transmission through a subwavelength slit. Physical Review B - Condensed Matter and Materials Physics, 89(12) 125119.
  • Law, S., Roberts, C., Kilpatrick, T., Yu, L., Ribaudo, T., Shaner, E., Podolskiy, V., Wasserman, D. (2014). All-semiconductor negative-index plasmonic absorbers. Physical Review Letters, 112(1) 017401.
  • Law, S., Roberts, C., Kilpatrick, T., Yu, L., Ribaudo, T., Shaner, E., Podolskiy, V., Wasserman, D. (2013). All-semiconductor plasmonic perfect absorber. CLEO: Science and Innovations, CLEO_SI 2013
  • Noginov, M., Lapine, M., Podolskiy, V., Kivshar, Y. (2013). Focus issue: Hyperbolic metamaterials. Optics Express, 21(12) 14895-14897.
  • Drachev, V., Podolskiy, V., Kildishev, A. (2013). Hyperbolic metamaterials: New physics behind a classical problem. Optics Express, 21(12) 15048-15064.
  • Inampudi, S., Podolskiy, V. (2013). Meta-gratings for highly-compact holographic imaging systems. CLEO: QELS_Fundamental Science, CLEO:QELS FS 2013
  • Wells, B., Zayats, A., Podolskiy, V. (2013). Nonlocal optics of plasmonic nanowire metamaterials. CLEO: QELS_Fundamental Science, CLEO:QELS FS 2013
  • Felts, J., Law, S., Roberts, C., Podolskiy, V., Wasserman, D., King, W. (2013). Near-field infrared absorption of plasmonic semiconductor microparticles studied using atomic force microscope infrared spectroscopy. Applied Physics Letters, 102(15).
  • Yakovlev, V., Dickson, W., Murphy, A., McPhillips, J., Pollard, R., Podolskiy, V., Zayats, A. (2013). Ultrasensitive non-resonant detection of ultrasound with plasmonic metamaterials. Advanced Materials, 25(16) 2351-2356.
  • Tumkur, T.U., Kitur, J.K., Chu, B., Gu, L., Podolskiy, V., Narimanov, E.E., Noginov, M.A. (2012). Control of reflectance and transmittance in scattering and curvilinear hyperbolic metamaterials. Applied Physics Letters, 101(9).
  • Alekseyev, L.V., Podolskiy, V., Narimanov, E.E. (2012). Homogeneous hyperbolic systems for terahertz and far-infrared frequencies. Advances in OptoElectronics, 2012.
  • Mason, J.A., Allen, G., Podolskiy, V., Wasserman, D. (2012). Strong coupling of molecular and mid-infrared perfect absorber resonances. IEEE Photonics Technology Letters, 24(1) 31-33.
  • Paul, M.J., Kuhta, N.A., Tomaino, J.L., Jameson, A.D., Maizy, L.P., Sharf, T., Rupesinghe, N.L., Teo, K.B., Inampudi, S., Podolskiy, V., Minot, E.D., Lee, Y.S. (2012). Terahertz transmission ellipsometry of vertically aligned multi-walled carbon nanotubes. Applied Physics Letters, 101(11).
  • Kuhta, N.A., Chen, A., Hasegawa, K., Deutsch, M., Podolskiy, V. (2011). Asymmetric reflectance and cluster size effects in silver percolation films. Physical Review B - Condensed Matter and Materials Physics, 84(16).
  • Boriskina, S.V., Povinelli, M., Astratov, V.N., Zayats, A.V., Podolskiy, V. (2011). Collective phenomena in photonic, plasmonic and hybrid structures. Optics Express, 19(22) 22024-22028.
  • Escarra, M.D., Thongrattanasiri, S., Charles, W.O., Hoffman, A.J., Podolskiy, V., Gmachl, C. (2011). Enhanced bandwidth and reduced dispersion through stacking multiple optical metamaterials. Optics Express, 19(16) 14990-14998.
  • Thongrattanasiri, S., Adams, D.C., Wasserman, D., Podolskiy, V. (2011). Multiscale beam evolution and shaping in corrugated plasmonic systems. Optics Express, 19(10) 9269-9281.
  • Kitur, J.K., Podolskiy, V., Noginov, M.A. (2011). Stimulated emission of surface plasmon polaritons in a microcylinder cavity. Physical Review Letters, 106(18).
  • Noginov, M.A., Gu, L., Livenere, J., Zhu, G., Pradhan, A.K., Mundle, R., Bahoura, M., Barnakov, Y.A., Podolskiy, V. (2011). Transparent conductive oxides: Plasmonic materials for telecom wavelengths. Applied Physics Letters, 99(2).
  • Thongrattanasiri, S., Kuhta, N.A., Escarra, M.D., Hoffman, A.J., Gmachl, C.F., Podolskiy, V. (2010). Analytical technique for subwavelength far field imaging. Applied Physics Letters, 97(10).
  • Adams, D.C., Thongrattanasiri, S., Ribaudo, T., Podolskiy, V., Wasserman, D. (2010). Plasmonic mid-infrared beam steering. Applied Physics Letters, 96(20).
  • Thongrattanasiri, S., Podolskiy, V. (2009). Hypergratings: Nanophotonics in planar anisotropic metamaterials. Optics Letters, 34(7) 890-892.
  • Hoffman, A.J., Sridhar, A., Braun, P.X., Alekseyev, L., Howard, S.S., Franz, K.J., Cheng, L., Choa, F.S., Sivco, D.L., Podolskiy, V., Narimanov, E.E., Gmachl, C. (2009). Midinfrared semiconductor optical metamaterials. Journal of Applied Physics, 105(12).
  • Thongrattanasiri, S., Elser, J., Podolskiy, V. (2009). Quasi-planar optics: Computing light propagation and scattering in planar waveguide arrays. Journal of the Optical Society of America B: Optical Physics, 26(12) 0-0.
  • Noginov, M.A., Podolskiy, V., Zhu, G., Mayy, M., Bahoura, M., Adegoke, J.A., Ritzo, B.A., Reynolds, K. (2008). Compensation of loss in propagating surface plasmon polariton by gain in adjacent dielectric medium. Optics Express, 16(2) 1385-1392.
  • Govyadinov, A.A., Podolskiy, V. (2008). Enhancement of dispersion modulation in nanoscale waveguides. Journal of the Optical Society of America B: Optical Physics, 25(12) 0-0.
  • Noginov, M.A., Zhu, G., Mayy, M., Ritzo, B.A., Noginova, N., Podolskiy, V. (2008). Stimulated emission of surface plasmon polaritons. Physical Review Letters, 101(22).
  • Hoffman, A.J., Podolskiy, V., Sivco, D.L., Gmachl, C. (2008). Sub-diffraction negative and positive index modes in mid-infrared waveguides. Optics Express, 16(21) 16404-16409.
  • Govyadinov, A.A., Podolskiy, V., Noginov, M.A. (2007). Active metamaterials: Sign of refractive index and gain-assisted dispersion management. Applied Physics Letters, 91(19).
  • Podolskiy, V., Narimanov, E.E. (2007). Comment on "all-angle broadband negative refraction of metal waveguide arrays in the visible range: Theoretical analysis and numerical demonstration". Physical Review Letters, 98(17).
  • Kuhta, N.A., Podolskiy, V., Efros, A.L. (2007). Far-field imaging by a planar lens: Diffraction versus superresolution. Physical Review B - Condensed Matter and Materials Physics, 76(20).
  • Avrutsky, I., Salakhutdinov, I., Elser, J., Podolskiy, V. (2007). Highly confined optical modes in nanoscale metal-dielectric multilayers. Physical Review B - Condensed Matter and Materials Physics, 75(24).
  • Podolskiy, V., Narimanov, E.E. (2007). Level spacing distribution in systems with partially chaotic classical dynamics. Physics Letters, Section A: General, Atomic and Solid State Physics, 362(5-6) 412-416.
  • Chen, A., Hasegawa, K., Podolskiy, V., Deutsch, M. (2007). Metamaterial coatings for broadband asymmetric mirrors. Optics Letters, 32(13) 1770-1772.
  • Elser, J., Podolskiy, V., Salakhutdinov, I., Avrutsky, I. (2007). Nonlocal effects in effective-medium response of nanolayered metamaterials. Applied Physics Letters, 90(19).
  • Elser, J., Govyadinov, A.A., Avrutsky, I., Salakhutdinov, I., Podolskiy, V. (2007). Plasmonic nanolayer composites: Coupled plasmon polaritons, effective-medium response, and subdiffraction light manipulation. Journal of Nanomaterials, 2007.
  • Narimanov, E.E., Podolskiy, V. (2006). Chaos-assisted tunneling and dynamical localization in dielectric microdisk resonators. IEEE Journal on Selected Topics in Quantum Electronics, 12(1) 40-51.
  • Govyadinov, A.A., Podolskiy, V. (2006). Gain-assisted slow to superluminal group velocity manipulation in nanowaveguides. Physical Review Letters, 97(22).
  • Govyadinov, A.A., Podolskiy, V. (2006). Metamaterial photonic funnels for subdiffraction light compression and propagation. Physical Review B - Condensed Matter and Materials Physics, 73(15).
  • Elser, J., Wangberg, R., Podolskiy, V., Narimanov, E.E. (2006). Nanowire metamaterials with extreme optical anisotropy. Applied Physics Letters, 89(26).
  • Wangberg, R., Elser, J., Narimanov, E.E., Podolskiy, V. (2006). Nonmagnetic nanocomposites for optical and infrared negative-refractive-index media. Journal of the Optical Society of America B: Optical Physics, 23(3) 498-505.
  • Govyadinov, A.A., Podolskiy, V. (2006). Sub-diffraction light propagation in fibres with anisotropic dielectric cores. Journal of Modern Optics, 53(16-17) 2315-2324.
  • Colombelli, R., Gmachl, C., Sergent, A.M., Sivco, D.L., Narimanov, E.E., Podolskiy, V., Cho, A.Y., Capasso, F. (2006). Surface-plasmon quantum cascade microlasers with highly deformed resonators. IEEE Journal on Selected Topics in Quantum Electronics, 12(1) 66-70.
  • Milton, G.W., Nicorovici, N.A., Mcphedran, R.C., Podolskiy, V. (2005). A proof of superlensing in the quasistatic regime, and limitations of superlenses in this regime due to anomalous localized resonance. Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, 461(2064) 3999-4034.
  • Podolskiy, V., Narimanov, E.E. (2005). Chaos-assisted tunneling in dielectric microcavities. Optics Letters, 30(5) 474-476.
  • Fang, W., Cao, H., Podolskiy, V., Narimanov, E.E. (2005). Dynamical localization in microdisk lasers. Optics Express, 13(15) 5641-5652.
  • Podolskiy, V., Kuhta, N.A., Milton, G.W. (2005). Optimizing the superlens: Manipulating geometry to enhance the resolution. Applied Physics Letters, 87(23) 1-3.
  • Podolskiy, V., Sarychev, A.K., Narimanov, E.E., Shalaev, V.M. (2005). Resonant light interaction with plasmonic nanowire systems. Journal of Optics A: Pure and Applied Optics, 7(2) 0-0.
  • Podolskiy, V., Alekseyev, L.V., Narimanov, E.E. (2005). Strongly anisotropic media: The THz perspectives of left-handed materials. Journal of Modern Optics, 52(16) 2343-2349.
  • Leung, H., Podolskiy, V. (2004). The limitedness problem on distance automata: Hashiguchi's method revisited. Theoretical Computer Science, 310(1-3) 147-158.
  • Podolskiy, V., Sarychev, A.K., Shalaev, V.M. (2002). Erratum: Plasmon modes in metal nanowires and left-handed materials (Journal of Nonlinear Optical Physics & Materials (2002) 11:1 (65-74)). Journal of Nonlinear Optical Physics and Materials, 11(3) 339.
  • Drachev, V., Kim, W.T., Safonov, V., Podolskiy, V., Zakovryashin, N., Khaliullin, E., Shalaev, V., Armstrong, R. (2002). Low-threshold lasing and broad-band multiphoton-excited light emission from Ag aggregate-adsorbate complexes in microcavity. Journal of Modern Optics, 49(3-4) 645-662.
  • Sarychev, A.K., Podolskiy, V., Dykhne, A.M., Shalaev, V.M. (2002). Resonance transmittance through a metal film with subwavelength holes. IEEE Journal of Quantum Electronics, 38(7) 956-963.
  • Podolskiy, V., Sarychev, A.K., Shalaev, V.M. (2002). Temporal dynamics of local optical responses and Sub-fs pulse generation in semicontinuous metal films. Laser Physics, 12(2) 292-299.
  • Podolskiy, V., Shalaev, V.M. (2001). Giant optical responses in microcavity-fractal composites. Laser Physics, 11(1) 26-30.
  • Ducourtieux, S., Podolskiy, V., Grsillon, S., Buil, S., Berini, B., Gadenne, P., Boccara, A.C., Rivoal, J.C., Bragg, W.D., Banerjee, K., Safonov, V.P., Drachev, V.P., Ying, Z.C., Sarychev, A.K., Shalaev, V.M. (2001). Near-field optical studies of semicontinuous metal films. Physical Review B - Condensed Matter and Materials Physics, 64(16) 1654031-16540314.
  • Ducourtieux, S., Grsillon, S., Boccara, A.C., Rivoal, J.C., Quelin, X., Gadenne, P., Drachev, V.P., Bragg, W.D., Safonov, V.P., Podolskiy, V., Ying, Z.C., Armstrong, R.L., Shalaev, V.M. (2000). Percolation and fractal composites: Optical studies. Journal of Nonlinear Optical Physics and Materials, 9(1) 105-116.

Selected Presentations

  • CLEO / QELS, 2011
  • CLEO, 2010
  • CLEO / QELS, 2008
  • CLEO / QELS, 2008
  • CLEO / QELS, 2008
  • PQE, 2006
  • CLEO/IQEC, May 2004 - San Francisco, CA
  • CLEO / QELS, June 2003 - Baltimore, MD
  • APS march meeting, March 2003 - Austin, TX
  • OSA, 2002
  • four corners section, 2001
  • OSA annual meeting, 2001 - Long Beach, CA, USA
  • Optical Society of America annual meeting, 2000 - Providence, RI, USA

Selected Intellectual Property

  • Patent - "Photonic funnels and anisotropic waveguides for subdiffraction light compression and pulse management at the nanoscale," 07623745 United States
  • Patent - Podolskiy, V.A., Govyadinov, A.A."Photonic funnels and anisotropic waveguides for subdiffraction light compression and pulse management at the nanoscale," 7623745 United States
  • Patent - "Left-handed materials and structures based on strong dielectric anisotropy," 7,421,178 United States
  • Patent - Podolskiy, V.A., Narimanov, E.E."Left-handed materials and structures based on strong dielectric anisotropy," 7421178 United States
  • Patent - "Plasmonic nanophotonic methods, materials and aparatuses," 6,977,767 B2 United States
  • Patent - Sarychev, A., Shalaev, V.M., Dykhne, A.M., Podolskiy, V.A."Plasmonic nanophotonic methods, materials and aparatuses," 6977767

Selected Contracts, Fellowships, Grants and Sponsored Research

  • PI: Active plasmonics for mid-IR sensing (), Grant - NSF
  • Materials World Network: Collaborative Proposal: Understanding the Optical Response of Designer Epsilon Near Zero Materials (2012), Grant - NSF
  • Nonlocal plasmonic metamaterials for ultrafastand nonlinear optics (2012), Grant - ARO
  • Materials World Network: Collaborative Research: Understanding the Optical Respon (2012), Grant -
    Podolskiy, V. (Principal)
  • QMHP: Multichannel interscale mixing: towards highly-parallel subwavelength imagi (2011), Grant -
    Podolskiy, V. (Principal)
  • NonLocal Plasmonic Metamaterials For Ultrafast and NonLinear Optics (2012), Grant -
    Podolskiy, V. (Principal)
  • Understanding Optics of Quasi-Random Systems by Merging Transformation Optics and Random Matrix Theory (2012), Grant - UML Healey Public Service Award
  • QMHP: Multichannel interscale mixing: towards highly-parallel subwavelength imaging and focusing of light (2011), Grant - NSF
  • ARRA -Collaborative Research: Active Plasmonics for Mid-Infrared Sensing (2009), Grant -
    Podolskiy, V. (Principal)
  • Active Plasmonics: Free Space Steering and Directional Control (2010), Grant -
    Podolskiy, V. (Principal)
  • PI: Development of a tuneable infrared optical filter (2010), Grant - MDA/Triton Sys.
  • PI: Active plasmonics for mid-IR sensing (2009), Grant - NSF
  • RES-Development of a Tunable Infrared Optical Filter (2010), Contract - MISSILE DEFENSE AGENCY
    Podolskiy, V. (Co-Principal)
  • PI: Frequency agile narrow-band infrared absorber (2011), Grant - AFRL/Triton Sys
  • Nanoscale Photonic Circuits in negative refraction waveguides (2010), Grant -
    Podolskiy, V. (Principal)
  • ONAMI nanometrology and nanoelectronics initiative: plasmonic focusing on a tip: optical scanning probes for spatio-temporal imaging on the nanoscale (2010), Grant - ONR
  • ONAMI nanometrology and nanoelectronics initiative: THz nanoantenna array based on carbon nanotubes (2010), Grant - ONR
  • Frequency Agile Narrow-Band Infrared Absorbed (2011), Contract - U.S. AIR FORCE RESEARCH LAB
    Podolskiy, V. (Co-Principal)
  • Long-Wave Infrared Semiconductor Negative Refraction Meta-Materials for High-Reso (2010), Contract - AIR FORCE OFFICE OF SCIENTIFIC RESEARCH
    Podolskiy, V. (Principal)
  • Long-wave infrared semiconductor negative refraction meta-materials for high-resolution imaging (2008), Grant - DARPA/AFOSR
  • Nanoscale photonic circuits in negative-refraction waveguides (2007), Grant - NSF & UML
  • ONAMI nanometrology and nanoelectronics initiative: Electroplasmonics: Merging nanoplasmonics with electrooptics (2007), Grant - ONR
  • ONAMI nanometrology and nanoelectronics initiative:Low-loss macroscopic negative index materials in the visible: sub-diffraction light manipulation and dispersion management (2007), Grant - ONR
  • ONAMI nanometrology and nanoelectronics initiative: Active plasmonic materials (2007), Grant - ONR
  • ONAMI research center: electromagnetically induced transparency (2007), Grant - ARL
  • Plasmonics of composite materials: new avenues of light management on nanoscale (2006), Grant - ACS/PRF
  • Acquisition of COMSOL multiphysics software for enhancing Physics education (2007), Grant - OSU/TRF
  • ONAMI research center: electromagnetically induced transparency (2006), Grant - ARO
  • Strongly anisotropic composites: new types of artificial materials (2005), Grant - OSU/GRF
  • Chaotic light scattering from dielectric microparticles (2006), Grant - OSU/URISC
  • Replacement of obsolete computers in computational physics lab (2005), Grant - OSU/TRF
  • Non-magnetic left-handed materials (2005), Grant - OSU/FRT