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Vladimir M. Shalaev

Identifiers

  • name variant Vladimir M. Shalaev 0.60 · backfill

Papers (95)

  1. Nonlinearity Reversal in Epsilon-Near-Zero Indium Tin Oxide Driven by Few-Cycle Light Pulse physics.optics · 2026 · author #7
  2. Single-pump hybrid nonlinearities in transparent conductors physics.optics · 2026 · author #4
  3. Machine-Learning-Assisted Photonic Device Development: A Multiscale Approach from Theory to Characterization physics.optics · 2025 · author #15
  4. Roadmap for Photonics with 2D Materials cond-mat.mtrl-sci · 2025 · author #103
  5. Crystallization of the transdimensional electron liquid cond-mat.str-el · 2025 · author #4
  6. High Harmonic Generation from a Noble Metal physics.optics · 2025 · author #12
  7. Roadmap on Nonlocality in Photonic Materials and Metamaterials cond-mat.mes-hall · 2025 · author #46
  8. Generation of photon pairs through spontaneous four-wave mixing in subwavelength nonlinear films physics.optics · 2025 · author #7
  9. Floquet Engineering of Polaritonic Amplification in Dispersive Photonic Time Crystals physics.optics · 2024 · author #5
  10. Non-native Quantum Generative Optimization with Adversarial Autoencoders quant-ph · 2024 · author #7
  11. Spatio-spectral optical fission in time-varying subwavelength layers physics.optics · 2024 · author #7
  12. Electron Confinement-Induced Plasmonic Breakdown in Metals physics.optics · 2024 · author #9
  13. Third Harmonic Enhancement Harnessing Photoexcitation Unveils New Nonlinearities in Zinc Oxide cond-mat.mtrl-sci · 2024 · author #7
  14. Site-Controlled Purcell-Induced Bright Single Photon Emitters in Hexagonal Boron Nitride physics.optics · 2024 · author #10
  15. Quantum Emitters in Aluminum Nitride Induced by Zirconium Ion Implantation physics.optics · 2024 · author #8
  16. All-optical modulation with single-photons using electron avalanche physics.optics · 2023 · author #9
  17. Wide-range Angle-sensitive Plasmonic Color Printing on Lossy-Resonator Substrates physics.optics · 2023 · author #9
  18. Photophysics of Intrinsic Single-Photon Emitters in Silicon Nitride at Low Temperatures quant-ph · 2023 · author #7
  19. Engineering the Temporal Dynamics with Fast and Slow Materials for All-Optical Switching physics.optics · 2022 · author #9
  20. Silicon nitride waveguides with intrinsic single-photon emitters for integrated quantum photonics physics.optics · 2022 · author #8
  21. Tailoring the Thickness-Dependent Optical Properties of Conducting Nitrides and Oxides for Epsilon-Near-Zero-Enhanced Photonic Applications physics.optics · 2022 · author #8
  22. Optimizing Startshot lightsail design: a generative network-based approach physics.optics · 2021 · author #3
  23. Efficient Topology Optimized Couplers for On-Chip Single-photon Sources physics.optics · 2021 · author #4
  24. Machine learning assisted quantum super-resolution microscopy physics.optics · 2021 · author #8
  25. Creating Quantum Emitters in Hexagonal Boron Nitride Deterministically on Chip-Compatible Substrates physics.optics · 2021 · author #8
  26. Machine Learning Framework for Quantum Sampling of Highly-Constrained, Continuous Optimization Problems quant-ph · 2021 · author #5
  27. Room temperature single-photon emitters in silicon nitride physics.app-ph · 2021 · author #8
  28. Electric field control of interaction between magnons and quantum spin defects cond-mat.mes-hall · 2020 · author #12
  29. High-harmonic generation in metallic titanium nitride physics.optics · 2020 · author #8
  30. Lithography-free plasmonic color printing with femtosecond laser on semicontinuous silver films physics.app-ph · 2020 · author #7
  31. Enabling optical steganography, data storage, and encryption with plasmonic colors physics.optics · 2020 · author #7
  32. Extraordinarily Large Permittivity Modulation in Zinc Oxide for Dynamic Nanophotonics physics.optics · 2020 · author #9
  33. Machine learning assisted global optimization of photonic devices physics.optics · 2020 · author #3
  34. Single and multi-mode directional lasing from arrays of dielectric nanoresonators physics.optics · 2020 · author #6
  35. Hybrid Magneto Photonic Material Structure for Plasmon Assisted Magnetic Switching cond-mat.mtrl-sci · 2020 · author #6
  36. Broadband Ultrafast Dynamics of Refractory Metals: TiN and ZrN physics.app-ph · 2020 · author #3
  37. Broad frequency shift of parametric processes in Epsilon-Near-Zero time-varying media physics.optics · 2019 · author #7
  38. Machine-Learning-Assisted Metasurface Design for High-Efficiency Thermal Emitter Optimization physics.optics · 2019 · author #3
  39. Chip-compatible quantum plasmonic launcher quant-ph · 2019 · author #11
  40. Rapid classification of quantum sources enabled by machine learning physics.optics · 2019 · author #6
  41. Transdimensional epsilon-near-zero modes in planar plasmonic nanostructures cond-mat.mes-hall · 2019 · author #3
  42. Adiabatic frequency shifting in epsilon near zero materials: The role of group velocity physics.optics · 2019 · author #9
  43. On-chip microwave-spin-plasmon interface (MSPI) physics.app-ph · 2019 · author #6
  44. Photonic topological phase transition on demand physics.optics · 2019 · author #4
  45. Deterministic integration of single nitrogen-vacancy centers into nanopatch antennas quant-ph · 2019 · author #12
  46. Formation of Bound States in the Continuum in Hybrid Plasmonic-Photonic Systems physics.optics · 2018 · author #2
  47. Optical Response of Finite-Thickness Ultrathin Plasmonic Films cond-mat.mes-hall · 2018 · author #3
  48. Hybrid Plasmonic Bullseye Antennas for Efficient Photon Collection physics.optics · 2018 · author #8
  49. Ultrabright room-temperature single-photon emission from nanodiamond nitrogen-vacancy centers with sub-nanosecond excited-state lifetime physics.optics · 2017 · author #10
  50. Ultrathin and Multicolor Optical Cavities with Embedded Metasurfaces physics.optics · 2017 · author #4
  51. Optical time reversal from time-dependent Epsilon-Near-Zero media physics.optics · 2017 · author #5
  52. Universal features of the optical properties of ultrathin plasmonic films cond-mat.mes-hall · 2017 · author #2
  53. Surface-plasmon opto-magnetic field enhancement for all-optical magnetization switching physics.optics · 2017 · author #3
  54. Electron spin contrast of Purcell-enhanced nitrogen-vacancy ensembles in nanodiamonds cond-mat.mes-hall · 2017 · author #12
  55. Temperature-dependent optical properties of plasmonic titanium nitride thin films cond-mat.mtrl-sci · 2017 · author #5
  56. Material platforms for integrated quantum photonics physics.optics · 2016 · author #4
  57. Lasing Action with Gold Nanorod Hyperbolic Metamaterials physics.optics · 2016 · author #10
  58. Enhancing Hot Carrier Collection for Solar Water Splitting with Plasmonic Titanium Nitride cond-mat.mtrl-sci · 2016 · author #9
  59. Temperature-dependent optical properties of gold thin films cond-mat.mtrl-sci · 2016 · author #5
  60. Second harmonic generation with plasmonic metasurfaces: direct comparison of electric and magnetic resonances physics.optics · 2015 · author #4
  61. Quasi-coherent thermal emitter based on refractory plasmonic materials physics.optics · 2015 · author #7
  62. Plasmon Resonance in Multilayer Graphene Nanoribbons physics.optics · 2015 · author #6
  63. Effective Third-Order Nonlinearities in Metallic Refractory Titanium Nitride Thin Films physics.optics · 2015 · author #7
  64. Colloidal Plasmonic Titanium Nitride Nanoparticles: Properties and Applications physics.optics · 2014 · author #5
  65. Ultra-compact modulators based on novel CMOS-compatible plasmonic materials physics.optics · 2013 · author #5
  66. Broadband Transformation Optics Devices physics.optics · 2012 · author #4
  67. Negative refraction in Al:ZnO/ZnO metamaterial in the near-infrared physics.optics · 2011 · author #4
  68. Merging Nonlinear Optics and Negative-Index Metamaterials physics.optics · 2011 · author #2
  69. Trapped Rainbow Techniques for Spectroscopy on a Chip and Fluorescence Enhancement physics.optics · 2011 · author #4
  70. Imaging Properties of Two-Dimensional Microlenses physics.optics · 2010 · author #4
  71. Frequency-domain simulations of a negative-index material with embedded gain physics.optics · 2009 · author #5
  72. Searching for Better Plasmonic Materials physics.optics · 2009 · author #5
  73. Tunable magnetic response of metamaterials physics.optics · 2009 · author #6
  74. Yellow-light Negative-index Metamaterials physics.optics · 2009 · author #5
  75. Translation of Nanoantenna Hot-Spots by a Metal-Dielectric Composite Superlens physics.optics · 2009 · author #4
  76. Coherent Nonlinear Optics and Quantum Control in Negative-Index Metamaterials physics.optics · 2009 · author #3
  77. Anisotropic Metamaterials Emulated by Tapered Waveguides: Application to Optical Cloaking physics.optics · 2009 · author #4
  78. Resonant nonlinear optics of backward waves in negative-index metamaterials physics.optics · 2008 · author #3
  79. Mirrorless Negative-index Parametric Micro-oscillator physics.optics · 2008 · author #3
  80. Optical Metamagnetism and Negative Index Metamaterials physics.optics · 2008 · author #6
  81. From Positive- to Negative-Index Materials: Transitional Phenomena physics.optics · 2007 · author #5
  82. Engineering Space for Light via Transformation Optics physics.optics · 2007 · author #2
  83. Four-wave mixing, quantum control and compensating losses in doped negative-index photonic metamaterials quant-ph · 2007 · author #4
  84. Non-Magnetic Cloak without Reflection physics.optics · 2007 · author #5
  85. Optical Magnetism: from Red to Blue physics.optics · 2007 · author #7
  86. Dual-Band Negative Index Metamaterial: Double-Negative at 813 nm and Single-Negative at 772 nm physics.optics · 2006 · author #7
  87. Optical Cloaking with Non-Magnetic Metamaterials physics.optics · 2006 · author #4
  88. A negative permeability material at red light physics.optics · 2006 · author #7
  89. Comment on "Negative Refractive Index in Artificial Metamaterials" [A. N. Grigorenko, Opt. Lett., 31, 2483 (2006)] physics.optics · 2006 · author #6
  90. Negative index metamaterial combining magnetic resonators with metal films physics.optics · 2006 · author #4
  91. Negative-Index Metamaterials: Second-Harmonic Generation, Manley-Rowe Relations and Parametric Amplification physics.optics · 2006 · author #2
  92. Resonant interaction of optical pulses with plasmonic oscillations in metal nanoparticles physics.optics · 2005 · author #5
  93. A Superlens Based on Metal-Dielectric Composites cond-mat.mtrl-sci · 2005 · author #3
  94. Negative Index of Refraction in Optical Metamaterials physics.optics · 2005 · author #1
  95. Resonant light interaction with plasmonic nanowire systems physics.optics · 2004 · author #4

Mentions

  • 2504.04558 #103 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 2506.20056 #15 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 2503.00519 #46 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 2502.01305 #7 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 2312.11686 #9 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 2503.05073 #12 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 2405.02516 #10 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 2406.04917 #7 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 2401.14631 #8 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 2408.00552 #5 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 2407.13830 #7 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 2105.02396 #5 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 2406.03226 #9 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 2405.04891 #7 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 2306.15496 #9 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 2301.10809 #7 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 2205.08481 #8 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 2208.12927 #9 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 2104.08128 #8 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 2203.14170 #8 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 2106.14983 #8 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 2011.10729 #8 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 2108.12999 #3 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 2107.07019 #4 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 2107.02401 #8 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 2012.01497 #12 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 1908.08577 #6 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 2009.04022 #7 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 2006.09524 #6 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 2009.03521 #7 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 2008.03896 #9 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 2004.10822 #3 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 1906.04849 #9 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 2007.02205 #3 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 1910.12741 #3 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 2006.16473 #6 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 1908.00640 #3 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 1912.00052 #7 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 1910.03005 #11 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 1903.10066 #4 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 1905.07057 #6 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
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  • 1902.05996 #12 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 1808.08244 #2 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
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  • 1708.03553 #2 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 1703.06991 #12 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
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  • 1509.08871 #4 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 1508.07335 #7 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 1507.06674 #7 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • physics/0611242 #4 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 1211.3750 #4 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 0912.0289 #5 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
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  • 0807.3487 #3 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 1308.3017 #5 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 1110.3231 #4 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 1108.0867 #2 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 0906.0276 #3 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 0808.2038 #3 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 1101.3366 #4 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 1006.0914 #4 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
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  • 0711.0183 #2 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 0708.0201 #4 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • physics/0612247 #7 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • physics/0610118 #7 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • physics/0609234 #6 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • physics/0606129 #4 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • physics/0601055 #2 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • physics/0504091 #1 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 0907.1871 #6 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 0906.4088 #4 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 0806.2677 #6 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 0801.0241 #5 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 0707.3641 #5 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • physics/0701020 #7 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • physics/0510264 #5 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • cond-mat/0506628 #3 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • physics/0406068 #4 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 2606.11567 #7 · arxiv_oai · confidence 0.70 Vladimir M. Shalaev
  • 1509.08871 #4 · backfill · confidence 0.70 Vladimir M. Shalaev
  • 1508.07335 #7 · backfill · confidence 0.70 Vladimir M. Shalaev
  • 1508.02789 #6 · backfill · confidence 0.70 Vladimir M. Shalaev
  • 1507.06674 #7 · backfill · confidence 0.70 Vladimir M. Shalaev
  • 1410.3920 #5 · backfill · confidence 0.70 Vladimir M. Shalaev
  • 1308.3017 #5 · backfill · confidence 0.70 Vladimir M. Shalaev
  • 1211.3750 #4 · backfill · confidence 0.70 Vladimir M. Shalaev

Frequent Coauthors