Publications

2022


  • R. Gladstone, M. Jung , G. Shvets, Spin-Polarized Fractional Corner Charges and Their Photonic Realization, Phys. Rev. Lett 128, 026801
  • P. Shen, S. Huang, Z. Huang, J. Wilson, G. Shvets, Probing the Drug Dynamics of Chemothrapeutics Using Metasurface-Enhanced Infrared Reflection Spectroscopy of Live Cells, Cells 11(10) 1600

2021


  • M. Jung, Y. Yu, G. Shvets, Exact higher-order bulk-boundary correspondence of corner-localized states, Phys. Rev. B 104, 195437
  • Huang, S. H., Li, J., Fan, Z., Delgado, R. & Shvets, G. Monitoring the effects of chemical stimuli on live cells with metasurface-enhanced infrared reflection spectroscopy. Lab Chip 21, 3991–4004 
  • F. Rana, O. Koksal, M. Jung, G. Shvets, C. Manolatou, Many-body theory of radiative lifetimes of exciton-trion superposition states in doped two-dimensional materials, Phys.Rev.B. 103, 035424
  • F. Rana, O. Koksal, M. Jung, G. Shvets, A.N. Vamivakas, C. Manolatou, Exciton-Trion Polaritons in Doped Two-Dimensional Semiconductors, Phys. Rev. Lett. 126, 127402
  • O. Koksal, M. Jung, C. Manolatou, A. N. Vamivakas, G. Shvets, F. Rana, Structure and dispersion of exciton-trion-polaritons in two-dimensional materials: Experiments and theory, Physical Review Research, 3, 033064
  • R. Rajawat, V. Khudik, G. Shvets.Fermi acceleration in relativistic collisionless plasma shocks correlates with anisotropic energy gains. Physics of Plasmas 28, 112902 
  • Y Yu, M Jung, G Shvets, Zero-energy corner states in a non-Hermitian quadrupole insulator, Physical Review B 103 (4), L041102
  • M.R. Shcherbakov, H. Zhang ,  M. Tripepi et al. Generation of even and odd high harmonics in resonant metasurfaces using single and multiple ultra-intense laser pulses. Nat Commun 12, 4185  
  • J. Kim, T. Wang, V. Khudik, G. Shvets, Subfemtosecond Wakefield Injector and Accelerator Based on an Undulating Plasma Bubble Controlled by a Laser Phase, Phys. Rev. Lett. 127, 164801 
  • L. Xiong,  Y. Li,  M. Jung,  C. Forsythe, S. Zhang,  A. McLeod,  Y. Dong, S. Liu, F. Ruta, C. Li, K. Watanabe, T. Taniguchi, M. Fogler, J. Edgar,  G.  Shvets, C. Dean,  D. Basov, . Programmable Bloch polaritons in graphene. Science Advances. 7. eabe8087. 10.1126/sciadv.abe8087. 
  • M. Bosch, M. Shcherbakov,  K. Won, H. Lee, Y.  Kim,  G.  Shvets,  Electrically actuated varifocal lens based on liquid-crystal-embedded dielectric metasurfaces. Nano Lett.  21, 9, 3849–3856
  • T. Wang, V. Khudik,  G. Shvets, Laser-Ion Lens and Accelerator, Phys. Rev. Lett. 126, 024801

2020


  • T. Wang, V. Khudik, G. Shvets. Laser-pulse and electron-bunch plasma wakefield accelerator. Phys. Rev. Accel. Beams 23, 111304 
  • N. Karl, P.P. Vabishchevich, M.R. Shcherbakov, S. Liu, M.B. Sinclair, G. Shvets, I. Brener, Frequency Conversion in a Time-Variant Dielectric Metasurface. Nano Letters. PMID 32940476 DOI: 10.1021/Acs.Nanolett.0C02113
  • M.K. Kroychuk ,A.S. Shorokhov , D.F. Yagudin, D.A. Shilkin, D.A. Smirnova, I. Volkovskaya, M.R. Shcherbakov, G. Shvets , A.A. Fedyanin. Enhanced Nonlinear Light Generation in Oligomers of Silicon Nanoparticles under Vector Beam Illumination. Nano Letters. PMID 32324416 DOI: 10.1021/Acs.Nanolett.0C00393 
  • G. Kelp, J. Li,  J. Lu, N. DiNapoli, R. Delgado, C. Liu,  D. Fan,  S. Dutta Gupta,  G. Shvets, Infrared spectroscopy of live cells from a flowing solution using electrically-biased plasmonic metasurfaces. Lab on a Chip. 20. 10.1039/C9LC01054H.
  • M. Jung, R. G. Gladstone, G. B. Shvets, “Nanopolaritonic second-order topological insulator based on graphene plasmons,” Adv. Photon. 2(4) 046003
  • S. Stephen R, C. Wipplinger, Se. Kırnaz, R. Delgado, S. H. Huang, G. B. Shvets, R. Härtl and L. Bonassar. “Imaging the local biochemical content of native and injured intervertebral disc using Fourier transform infrared microscopy.” JOR Spine 3 : n. pag.
  • Y. Li, Y. Yu, F. Liu, Baile Zhang, G. Shvets. Phys. Rev. Lett. 125, 213902. Topology-Controlled Photonic Cavity Based on the Near-Conservation of the Valley Degree of Freedom
  • Y. Yu et al., “One-Way Leaky-Cladding Meta-Waveguides Based on Accidental Dirac Cones,” in IEEE Transactions on Antennas and Propagation, vol. 68, no. 3, pp. 1733-1738, doi: 10.1109/TAP.2020.2967291.
  • G. B. Shvets, “Active and nonlinear metasurfaces: Science and applications,” Proc. SPIE 11460, Metamaterials, Metadevices, and Metasystems 2020, 1146003 https://doi-org.proxy.library.cornell.edu/10.1117/12.2572094

2019


  • Kelp, G. et al. Application of metasurface-enhanced infra-red spectroscopy to distinguish between normal and cancerous cell types. Analyst 144, 1115–1127 
  • S Ma, B Xiao, Y Yu, K Lai, G Shvets, SM Anlage, Topologically protected photonic modes in composite quantum Hall/quantum spin Hall waveguides,Physical Review B 100 (8), 085118
  • Y Yu, K Lai, J Shao, J Power, M Conde, W Liu, S Doran, C Jing, et al. Transition radiation in photonic topological crystals: quasi-resonant excitation of robust edge states by a moving charge, Physical Review Letters 123 (5), 057402
  • M. Bosch,  M.Shcherbakov,   Z. Fan,  G. Shvets, Polarization states synthesizer based on a thermo-optic dielectric metasurface. Journal of Applied Physics. 126. 073102. 10.1063/1.5094158.
  •  M.R. Shcherbakov, K. Werner , Z. Fan , N. Talisa , E. Chowdhury , G Shvets. Photon acceleration and tunable broadband harmonics generation in nonlinear time-dependent metasurfaces. Nature Communications. 10: 1345.
  • M. R. Shcherbakov, P. Shafirin, and G. Shvets.  Phys. Rev. A. Overcoming the efficiency-bandwidth tradeoff for optical harmonics generation using nonlinear time-variant resonators
  • M. Shcherbakov, R. Lemasters, Z. Fan,  J. Song,  T. Lian, H. Harutyunyan, G. Shvets,  (2019). Time-variant metasurfaces enable tunable spectral bands of negative extinction.
  • T. Wang,  V. Khudik, A. Arefiev, G. Shvets,  Direct laser acceleration of electrons in the plasma bubble by tightly focused laser pulses. Physics of Plasmas. 26. 083101. 10.1063/1.5110407.
  • R. Gladstone, M. Jung, Y. Han, G. Shvets  Photonic emulation of two-dimensional materials with antiferromagnetic order. Phys. Rev. B 100, 245417

2018


  • X. Zhang, T. Wang, V. Khudik, A. C. Bernstein, M. C. Downer and G. Shvets, Effects of laser polarization and wavelength on hybrid laser wakefield and direct acceleration, Plasma Phys. Control. Fusion 60 105002

  • M. Jung, Z. Fan, G. Shvets. Midinfrared Plasmonic Valleytronics in Metagate-Tuned Graphene. Physical Review Letters. 121: 086807. PMID 30192584 DOI: 10.1103/Physrevlett.121.086807
  • G. Shvets , G. Kelp, , S.D. Gupta, N. DiNapoli. (2018). Circulating tumor cells enrichment and phenotyping by combining dielectrophoresis and metasurface-enhanced infrared spectroscopy (Conference Presentation). 2. 10.1117/12.2291584
  • Z. Fan, M. R. Shcherbakov, M. Allen, J. Allen, B. Wenner, and G. Shvets
    ACS Photonics 2018 5 (11), 4303-4311. Perfect Diffraction with Multiresonant Bianisotropic Metagratings. DOI: 10.1021/acsphotonics.8b00434
  • V. Khudik, X. Zhang, T. Wang, G. Shvets. Phys.Plasmas 25 8, 083101. Far-field constant-gradient laser accelerator of electrons in an ion channel. DOI: 10.1063/1.5036967
  • T. Wang, V. Khudik and G. Shvets, “High Energy Density Ion Beam from a Focusing Shaped Target in the Radiation Pressure Regime,”  IEEE Advanced Accelerator Concepts Workshop (AAC), 2018, pp. 1-5, doi: 10.1109/AAC.2018.8659387.

2017

  • F Gao, H Xue, Z Yang, K Lai, Y Yu, X Lin, Y Chong, G Shvets, B Zhang, Topologically protected refraction of robust kink states in valley photonic crystals, Nature Physics 14 (2), 140-144
  • Khanikaev, A.B., Shvets, G. Two-dimensional topological photonics. Nature Photon 11, 763–773 (2017). https://doi-org.proxy.library.cornell.edu/10.1038/s41566-017-0048-5
  • Dutta-Gupta Shourya, Dabidian Nima, Kholmanov Iskandar, Belkin Mikhail A. and Shvets Gennady 2017 Electrical tuning of the polarization state of light using graphene-integrated integrated anisotropic metasurfacesPhil. Trans. R. Soc. A.3752016006120160061http://doi.org/10.1098/rsta.2016.0061
  • Tianhong Wang, Vladimir Khudik, Boris Breizman, and Gennady Shvets. Physics of Plasmas 24, 103117 (2017).Nonlinear plasma waves driven by short ultrarelativistic electron bunches. https://doi.org/10.1063/1.4999629
 

 

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2004