160. Resonance cascading in a ceramic tag for long-range omnidirectional radio-frequency identification communication
D. Dobrykh, A. Maksimenko, I. Yusupov, D. Filonov, A. Slobozhanyuk, and P. Ginzburg;
Phys. Rev. Applied 20, 064022 (2023)
159. Quasi-BIC high-index resonators for liquid characterization and analysis
I. Yusupov, D. Dobrykh, P. Terekhina,
D. Filonov, P. Ginzburg, M. Rybin, and
A. Slobozhanyuk;
Appl. Phys. Lett. 123, 244102 (2023)
158. Micro-Doppler-Coded Drone Identification
D. Vovchuk, M. Khobzei, V. Tkach, O. Eliiashiv, O. Tzidki, K. Grotov, A. Glam, and P. Ginzburg;
157. SU-8 meta phenylenediamine conjugated thin film for temperature sensing
H. Barhum, M. Atrash, Inga Brice, T. Salgals,
M. Matar, M. Amer, Z. Abdeen, J. Alnis,
V. Bobrovs, A. Abdeen, and P. Ginzburg;
156. Metal Ion Sensing with Phenylenediamine Quantum Dots in Blood Serum
L. Fatkhutdinova, H. Barhum, E. Gerasimova, M. Attrash, D. Kolchanov, I. Vazhenin,
A. Timin, P. Ginzburg, and M. Zyuzin;
ACS Applied Nano Materials, 6, 23130-23141 (2023)
155. Caramel UHF RFID Sensors for Pest Monitoring
D. Dobrykh, I. Solomon, H. Barhum,
D. Kolchanov, O. Messer, M. Sokol, A. Drucker, E. Socher, A. Slobozhanyuk, D. Filonov, and
P. Ginzburg;
IEEE Journal of Radio Frequency Identification (2023)
154. Thin-film Conformal Fluorescent SU8-Phenylenediamine
H. Barhum, D. Kolchanov, M. Attrash,
R. Unis, J. Alnis, T. Salgals, I. Yehia, and
P. Ginzburg;
Nanoscale (2023)
152. Gilded vaterite optothermal transport in a bubble
H. Gilad, H. Barhum, A. Ushkov, A. Machnev, D. Ofer, V. Bobrovs, and P. Ginzburg;
Scientific Report 13, 12158 (2023)
151. Optothermal needle-free injection of vaterite nanocapsules
D. Kislov, D. Ofer, A. Machnev, H. Barhom,
V. Bobrovs, A. Shalin, and P. Ginzburg;
Submitted
150. Direction of Arrival Deception with Time-Modulated Scatterers
V. Kozlov, D. Vovchuk, and P. Ginzburg;
IEEE Transactions on Radar Systems 1,
90-95 (2023)
149. Radar Range Deception with Time-Modulated Scatterers
V. Kozlov, D. Vovchuk, and P. Ginzburg;
IEEE Transactions on Antennas and Propagation 71(5), 4486 - 4491 (2023)
148. Compact high-gain volumetric phased array antenna with genetically designed inter-element resonances for 5G applications
V. Denisovich Burtsev, T. Vosheva, N. Bulatov, A. Khudykin, P. Ginzburg, and D. Filonov;
Phys. Status Solidi RRL (2023)
147. Bound States in the Continuum Help Shrimp Eyes to Catch More Light
A. Machnev, D. Ofer, H. Gilad, J. Binenbaum, L. Schneidman, Y. Levitt-Barmats, P. Ginzburg, and R. Noskov;
ACS Photonics 10(1), 179-184 (2023)
146. Coronavirus-Like All-Angle All-Polarization Broadband Scatterer
A. Mikhailovskaya, D. Vovchuk, K. Grotov,
D. Kolchanov, D. Dobrykh, K. Ladutenko,
V. Bobrovs, A. Powell, P. Belov, and
P. Ginzburg;
Communications Engineering 2, 76 (2023)
145. Superradiant Scattering Limit for Arrays of Subwavelength Scatterers
A. Mikhailovskaya, K. Grotov, D. Vovchuk,
A. Machnev, D. Dobrykh, R. Noskov,
K. Ladutenko, P. Belov, and P. Ginzburg;
PHYSICAL REVIEW APPLIED 18, 054063 (2022)
144. Optically Controlled Dissolution
Kinetics of Vaterite Microcapsules:
Toward Novel Crystal Growth Strategies
A. Ushkov, A. Machnev, and P. Ginzburg;
Crystal Growth & Design, 23(11), 8009-8017 (2023)
143. Organic Kainate Single Crystals for Second Harmonic and Broadband THz Generation
H. Barhum, C. McDonnell, T. Alon,
R. Hammad, M. Attrash, T. Ellenbogen,
and P. Ginzburg;
ACS Appl. Mater. Interfaces (2023)
142. Light Triggered Molecular Cargo Release From Porous Vaterite In Glioblastoma For Controlled Therapy
H. Barhum, G. Elad-Sfadia, P. Blinder, and
P. Ginzburg;
Submitted
141. Optical Fluorescent Functionalization of SU8 Epoxide With Phenylenediamine For Active Thin Film Imaging Applications
H. Barhum, H. Shamkhi, T. Alon, C. Mcdomnhell, D. Kolchanov, and P. Ginzburg;
Submitted
140. Gold decorated Vaterite with optically enhanced resonant modes
H. Bahrom, H. Shamkhi, H. Gilad, and
P. Ginzburg;
Submitted
Submitted
139. Vaterite Encapsulation with Phenylenediamine Biocompatible Carbon Dots for Broadband Near Infra-Red Multi-Photon Imaging
D. Harpaz, H. Barhom, B. Veltman, P. Ginzburg and E. Eltzov;
138. Biocompatibility Characterization of Vaterite with a Bacterial Whole-Cell Biosensor
D. Harpaz, H. Barhom, B. Veltman,
P. Ginzburg, and E. Eltzov;
Colloids and Surfaces B: Biointerfaces
113104 (2022)
137. Optothermal needle-free injection of vaterite nanocapsules
D. Kislov, D. Ofer, A. Machnev, H. Barhom, A. Shalin, and P. Ginzburg;
Submitted
136. Golden-core Photonic Crystal Fiber Thermo-Optical Power Modulator
A. Blank, A. Machnev, D. Kolchanov, A. Inberg, P. Mosley, and Pavel Ginzburg;
Submitted
135. Miniature long-range ceramic on-metal RFID tag
I. Yusupov, D. Dobrykh, D. Filonov, A. Slobozhanyuk, and P. Ginzburg;
IEEE Transactions on Antennas and Propagation 70(11), 10226 - 10232 (2022)
134. Genetically Designed Wire Bundle Super-Scatterers
K. Grotov, D. Vovchuk, S. Kosulnikov,
I. Gorbenko, L. Shaposhnikov, K. Ladutenko,
P. Belov, and P. Ginzburg;
IEEE Transactions on Antennas and Propagation 70(10), 9621-9629 (2022)
133. Simple low-cost 3D metal printing via plastic skeleton burning
V. Burtsev, T. Vosheva, A. Khudykin,
P. Ginzburg, and D. Filonov;
Scientific Reports 12, 7963 (2022)
132. Naked eye direction of arrival estimation with a Fresnel lens
D. Vovchuk, M. Khobzei, D. Filonov, and
P. Ginzburg;
Scientific Reports 12, 2479 (2022)
131. Self-aligning roly-poly RFID tag
D. Dobrykh, I. Yusupov, P. Ginzburg,
A. Slobozhanyuk, and D. Filonov;
Scientific Reports 12, 2140 (2022)
130. Extraordinary broadband impedance matching in highly dispersive media - the white light
cavity approach
J. Scheuer, D. Filonov, T. Vosheva, and
P. Ginzburg;
Optics Express 30 (4), 5192-5199 (2022)
129. Green ultra-wideband antenna utilizing Mie resonances in cactus
A. Jain, D. Vovchuk, R. Noskov, E. Socher, and P. Ginzburg;
Applied Physics Letters 120, 053301 (2022)
128. Single GaP nanowire nonlinear characterization with the aid of an optical trap
A. Bolshakov, I. Shishkin, A. Machnev,
M. Petrov, D. Kirilenko, V. Fedorov, I. Mukhin, and P. Ginzburg;
Nanoscale 3 (2022)
127. Circular wire-bundle superscatterer
S. Kosulnikov, D. Vovchuk, R. Noskov,
A. Machnev, V. Kozlov, K. Grotov, K. Ladutenko, P. Belov, and P. Ginzburg;
Journal of Quantitative Spectroscopy and Radiative Transfer 279, 108065 (2022)
126. Hardware RFID security for preventing far-field attacks
D. Dobrykh, D. Filonov, A. Slobozhanyuk, and P. Ginzburg;
IEEE Transactions on Antennas and Propagation 70(3), 2199-2204 (2022)
125. Anapole-enabled RFID security against far-field attacks
A. Mikhailovskaya, D. Shakirova, S. Krasikov,
I. Yusupov, D. Dobrykh, A. Slobozhanyuk,
A. Bogdanov, D. Filonov, and P. Ginzburg;
Nanophotonics 10(17), 4409–4418 (2021)
123. Amplified spontaneous emission and gain in highly concentrated Rhodamine-doped peptide derivative
A. Machnev, D. Ofer, I. Shishkin, V. Kozlov,
C. Diaferia, A. Accardo, G. Morelli, B. Apter,
A. Inberg, G. Rosenman, and P. Ginzburg;
Scientific Reports 11, 17609 (2021)
124. Chipless wireless temperature sensor based on quasi-BIC resonance
I. Yusupov, D. Filonov, A. Bogdanov,
P. Ginzburg, M. Rybin, and A. Slobozhanyuk;
Applied Physics Letters 119, 193504 (2021)
122. Multicolor Phenylenediamine Carbon Dots for Metal-Ion Detection with Picomolar Sensitivity
H. Barhum, T. Alon, M. Attrash, A. Machnev,
I. Shishkin, and P. Ginzburg;
ACS Applied Nano Materials (2021)
120. Omnidirectional miniature RFID tag
A. Mikhailovskaya, I. Yusupov, D. Dobrykh,
S. Krasikov, D. Shakirova, A. Bogdanov,
D. Filonov, and P. Ginzburg;
Applied Physics Letters 119, 033503 (2021)
121. Micro-Doppler signatures of subwavelength nonrigid bodies in motion
V. Kozlov, D. Vovchuk, S. Kosulnikov, D. Filonov, and P. Ginzburg;
PHYSICAL REVIEW B 104, 054307 (2021)
119. Multipole Engineering of Attractive−Repulsive and Bending Optical Forces
D. Kislov, E. Gurvitz, V. Bobrovs, A. Pavlov,
D. Redka, M. Marqués, P. Ginzburg, A. Shalin ;
Advanced Photonics Research, 2100082 (2021)
118. Broadband radar invisibility with time-dependent metasurfaces
V. Kozlov, D. Vovchuk, and P. Ginzburg ;
Scientific Reports 11, 14187 (2021)
117. Modifying light–matter interactions with perovskite nanocrystals inside antiresonant photonic crystal fiber
A. Machnev, A. Pushkarev, P. Tonkaev,
R. Noskov, K. Rusimova, P. Mosley, S. Makarov, P. Ginzburg, and I. Shishkin;
Photonics Research 9(8), 1462-1469 (2021)
116. Golden Vaterite as a Mesoscopic Metamaterial for
Biophotonic Applications
R. Noskov, A. Machnev, I. Shishkin,
M. Novoselova, A. Gayer, A. Ezhov, E. Shirshin, S. German, I. Rukhlenko, S. Fleming,
B. Khlebtsov, D. Gorin, and P. Ginzburg;
Advanced Materials, 2008484 (2021)
115. Multipolar Engineering of Subwavelength Dielectric Particles for Scattering Enhancement
S. Krasikov, M. Odit, D. Dobrykh, I. Yusupov, A. Mikhailovskaya, D. Shakirova, A. Shcherbakov, A. Slobozhanyuk, P. Ginzburg, D. Filonov, and A. Bogdanov;
Physical Review Applied 15, 024052 (2021)
114. Volumetric metamaterials versus impedance surfaces in scattering applications
S. Kosulnikov, D. Filonov, A. Boag, and P.Ginzburg;
Scientific Reports 11, 9571 (2021)
113. Long-range miniature ceramic RFID tags
D. Dobrykh, I. Yusupov, S. Krasikov, A. Mikhailovskaya, D. Shakirova, A. Bogdanov, A. Slobozhanyuk, D. Filonov, and P. Ginzburg;
IEEE Transactions on Antennas and Propagation 69(6), 3125-3131 (2021)
112. Efficient radiational outcoupling of electromagnetic energy from hyperbolic metamaterial resonators
I. Yusupov, D. Filonov, T. Vosheva, V. Podolskiy and P. Ginzburg;
Scientific Reports 10, 21854 (2020)
111. Multispectral sensing of biological liquids with hollow-core microstructured optical fibres
T. Ermatov, R. Noskov, A. Machnev, I. Gnusov, V. Atkin, E. Lazareva, S. German, S. Kosolobov, T. Zatsepin, O. Sergeeva, J. Skibina, P. Ginzburg, V. Tuchin, P. Lagoudakis, and
D. Gorin;
Light: Science & Applications 9, 173 (2020)
110. Multipole engineering for enhanced backscattering modulation
D. Dobrykh, D. Shakirova, S. Krasikov, A. Mikhailovskaya, I. Yusupov, A. Slobozhanyuk, K. Ladutenko, D. Filonov, A. Bogdanov, and P. Ginzburg;
PHYSICAL REVIEW B 102, 195129 (2020)
109. Efficient computation of arbitrary beam scattering on a sphere
Yu. Kashter, E. Falek, and P. Ginzburg;
Journal of Quantitative Spectroscopy & Radiative Transfer 253, 106887 (2020)
108. Experimental Observation of Intrinsic Light Localization in Photonic Icosahedral Quasicrystals
A. Sinelnik, I. Shishkin, X. Yu, K. Samusev, P. Belov, M. Limonov, P. Ginzburg, and M. Rybin;
Advanced Optical Materials, 2001170 (2020)
107. Memory Effects in Scattering from Accelerating Bodies
V. Kozlov, S. Kosulnikov, D. Vovchuk, and
P. Ginzburg;
Advanced Photonics 2(5), 056003 (2020)
106. Wire resonator as a broadband Huygens superscatterer
D. Vovchuk, S. Kosulnikov, R. Noskov, and
P. Ginzburg;
PHYSICAL REVIEW B 102, 094304 (2020)
105. Fluorescence Phenomena in Amyloid and Amyloidogenic Bionanostructures
B. Apter, N. Lapshina, H. Barhom, B. Fainberg, A. Handelman, A. Accardo,
C. Diaferia, P. Ginzburg, G. Morelli, and
G. Rosenman;
Crystals 10(8), 1-43 (2020)
104. 4D Optically Reconfigurable Volumetric Metamaterials
D. Dobrykh, A. Mikhailovskaya, P. Ginzburg, and D. Filonov;
Phys. Status Solidi RRL 2000159, 1-6 (2020)
103. Nano-scale tunable optical binding mediated by hyperbolic metamaterials
N. A. Kostina, D. A. Kislov, A. N. Ivinskaya, A. Proskurin, D. N. Redka, A. Novitsky, P. Ginzburg, and A. S. Shalin;
ACS Photonics 7(2), 425-433 (2020).
102. Diffusion-inspired time-varying phosphorescent decay in a nanostructured environment
D. Kislov, D. Novitsky, A. Kadochkin, D. Redka, A. Shalin, and P. Ginzburg;
PHYSICAL REVIEW B 101, 035420 (2020)
101. Nonlinear Nanophotonic Circuitry: Tristable and Astable Multivibrators and Chaos Generator
P. Ma, L. Gao, P. Ginzburg, and R. Noskov;
Laser & Photonics Review, 1900304 (2020)
100. Auxiliary Optomechanical Tools for 3D Cell Manipulation
I. Shishkin, H. Markovich, Ya. Roichman and
P. Ginzburg;
Micromachines, 11(90) (2020)
99. Controllable Synthesis of Calcium Carbonate with Different Geometry: Comprehensive Analysis of Particle Formation, Cellular Uptake, and Biocompatibility
H. Bahrom, A. A Goncharenko,
L. Fatkhutdinova, O. Peltek, A. Muslimov,
O. Koval, I. E Eliseev, A. Manchev, D. Gorin,
I. Shishkin, R. E Noskov, A. S Timin,
P. Ginzburg, M. V Zyuzin;
ACS Sustainable Chemistry & Engineering 7(23), 19142-19156 (2019)
98. Biological Kerker Effect Boosts Light Collection Efficiency in Plants
H. Barhom, A.A. Machnev, R.E. Noskov, A. Goncharenko, E.A. Gurvitz, A.S. Timin, V.A. Shkoldin, S.V. Koniakhin, O.Yu. Koval, M.V. Zyuzin, A.S. Shalin, I.I. Shishkin, and P. Ginzburg;
Nano Letters, 7062−7071 (2019)
97. Singlet–Triplet Transition Rate Enhancement inside Hyperbolic Metamaterials
D. J. Roth, P. Ginzburg, L. M. Hirvonen, J. A. Levitt, M. E. Nasir, K. Suhling, D. Richards, V. A. Podolskiy, and A. V. Zayats;
Laser & Photonics Review, 1900101 (2019)
96. Broadband resonant calibration-free complex permittivity retrieval of liquid solutions
D. Filonov, E. Kretov, S. Kurdjumov, V. Ivanov and P. Ginzburg;
Journal of Quantitative Spectroscopy & Radiative Transfer 235, 127–131 (2019)
95. Coupled Micro-Doppler Signatures of Closely Located Targets
V. Kozlov, S. Kosulnikov, D. Filonov, A. Schmidt and P. Ginzburg;
PHYSICAL REVIEW B, 100, 214308 (2019)
94. Flexible metalized tubes for electromagnetic waveguiding
D. Filonov, H. Barhom, A. Shmidt, Y. Sverdlov, Y. Shacham-Diamand, A. Boag, P. Ginzburg;
Journal of Quantitative Spectroscopy & Radiative Transfer 232, 152–155 (2019)
93. Enabling magnetic resonance imaging of hollow-core microstructured optical fibers via nanocomposite coating
R. Noskov, A. Zanishevskaya, A. Shuvalov, S. German, O. Inozemtseva, T. Kochergin, E. Lazareva, V. Tuchin, P. Ginzburg, J. Skibina, and D. Gorin;
Optics Express 27 (7), 9868-9878 (2019)
92. Microstructured Optical Waveguide-Based Endoscopic Probe Coated with Silica Submicron Particles
T. Ermatov, Y. Petrov, S. German, A. Zanishevskaya, A. Shuvalov, V. Аtkin, A. Zakharevich, B. Khlebtsov, J. Skibina, P. Ginzburg, R. Noskov, V. Tuchin and D. Gorin;
Materials 12(9), 1424 (2019)
91. Partially coherent radar unties range resolution from bandwidth limitations
R. Komissarov, V. Kozlov, D. Filonov, and
P. Ginzburg;
Nature Communications 10 (1), 1423 (2019)
90. Volumetric 3D‐Printed Antennas, Manufactured via Selective Polymer Metallization
D. Filonov, S. Kolen, A. Shmidt, Y. Shacham‐Diamand, A. Boag, and P. Ginzburg;
Phys. Status Solidi RRL, 1800668 (2019)
89. Optical binding via surface plasmon polariton interference
N. Kostina, M. Petrov, A. Ivinskaya, S. Sukhov, A. Bogdanov, I. Toftul, M. Nieto-Vesperinas,
P. Ginzburg, and A. Shalin;
PHYSICAL REVIEW B, 99, 125416 (2019)
88. Bioinspired Amyloid Nanodots with Visible Fluorescence
N. Lapshina, I. I. Shishkin, R. Nandi, R. E. Noskov, H. Barhom, S. Joseph, B. Apter, T. Ellenbogen, A. Natan, P. Ginzburg, N. Amdursky, and G. Rosenman;
Advanced Optical Materials, 7, 1801400 (2019)
87. Quantum Sensing: Quantum Sensing of Motion in Colloids via Time‐Dependent Purcell Effect
A. S. Kadochkin, I. I. Shishkin, A. S. Shalin, and P. Ginzburg;
Laser Photonics Rev. 12 (9) (2018)
86. Optomechanical Manipulation with Hyperbolic Metasurfaces
A. Ivinskaya, N. Kostina, A. Proskurin, M. I. Petrov, A. A. Bogdanov, S. Sukhov, A. V. Krasavin, A. Karabchevsky, A. S. Shalin, and
P. Ginzburg;
ACS Photonics 5 (11), 4371-4377 (2018)
85. Non-Mie Optical Resonances in Anisotropic Biomineral Nanoparticles
R. E. Noskov, I. Shishkin, H. Barhom, and
P. Ginzburg;
Nanoscale, 10, 21031-21040 (2018)
84. Giant magnetoelectric field separation via anapole-type states in high-index dielectric structures
K. Baryshnikova, D. Filonov, C. Simovski, A. Evlyukhin, A. Kadochkin, A. Denisultanov, E. Nenasheva, P. Ginzburg, and A. S. Shalin;
Phys. Rev. B 98, 165419 (2018)
83. Ultrafast cryptography with indefinitely switchable optical nanoantennas
P. Ma, L. Gao, P. Ginzburg, and R. E. Noskov;
Light: Science & Applications 7, 77 (2018)
82. Artificial localized magnon resonances in subwavelength meta-particles
D. Filonov, A. Shmidt, A. Boag, and
P. Ginzburg;
Appl. Phys. Lett. 113, 123505 (2018)
81. Förster Resonance Energy Transfer inside Hyperbolic Metamaterials
D. Roth, M. Nasir, P. Ginzburg, P. Wang, A. Le Marois, K. Suhling, D. Richards, and
A. Zayats;
ACS Photonics, 5 (11), 4594–4603 (2018)
80. Resonant metasurface with tunable asymmetric reflection
D. Filonov, V. Kozlov, A. Shmidt, B. Z. Steinberg, and P. Ginzburg;
Appl. Phys. Lett. 113 (9), 094103 (2018)
79. Low-frequency nonlocal and hyperbolic
modes in corrugated wire metamaterial
B. Fan, D. Filonov, P. Ginzburg, and
V. Podolskiy;
Optics Express 26 (13), 17541-17548 (2018)
78. Generalization of the optical theorem: experimental proof for radially polarized beams
A. Krasavin, P. Segovia, R. Dubrovka, N. Olivier, G. Wurtz, P. Ginzburg, A. Zayats;
Light: Science & Applications 7 (2018)
77. Optical Manipulation along Optical Axis with Polarization Sensitive Meta-lens
H. Markovich, I. I. Shishkin, N. Hendler and
P. Ginzburg;
Nano Lett. 18, 5024–5029 (2018)
76. Evidence of High-Order Nonlinearities in Supercontinuum White-Light Generation from a Gold Nanofilm
J. Chen, A. Krasavin, P. Ginzburg, A. Zayats,
T. Pullerits , and K. Karki;
ACS Photonics 5(5), 1927–1932 (2018)
75. Circular Dichroism Enhancement in Plasmonic Nanorod Metamaterials
D. Vestler, I. Shishkin, E.A.Gurvitz, M.E. Nasir, A. Ben-Moshe, A.P. Slobozhanyuk, A.V. Krasavin, T. Levi-Belenkova, A.S. Shalin, P. Ginzburg, G. Markovich, A.V. Zayats;
Optics Express 26 (14) 17841-17848 (2018)
74. Granular Permittivity Representation in Extremely Near-Field Light–Matter Interaction Processes
A. Kadochkin, A. Shalin, and P. Ginzburg
ACS Photonics 4(9), 2137–2143 (2017);
Optics Express 26 (14) 17841-17848 (2018)
73. Second-Harmonic Generation from Hyperbolic Plasmonic Nanorod Metamaterial Slab
G. Marino, P. Segovia, A. Krasavin, P. Ginzburg, N. Olivier, G. Wurtz, and A. V. Zayats;
Laser Photonics Rev. 2018, 1700189
72. Free-electron Optical Nonlinearities in Plasmonic Nanostructures: A Review of the Hydrodynamic Description
A. Krasavin, P. Ginzburg, and A. Zayats;
Laser & Photonics Reviews, 1700082 (2017)
71. Bifocal Fresnel lens based on the polarization-sensitive metasurface
H. Markovich, D. Filonov, I. Shishkin, and P. Ginzburg;
IEEE Transactions on Antennas and Propagation, 66 (5) 2018
70. Plasmon-assisted optical trapping and anti-trapping
A. Ivinskaya, M. Petrov, A. Bogdanov, I. Shishkin, P. Ginzburg, and A. Shalin;
Light: Science & Applications 6, e16258 (2017)
69. Asymmetric Micro-Doppler Frequency Comb Generation via Magneto-Electric Coupling
D. Filonov, Ben Z. Steinberg, and P. Ginzburg;
Phys. Rev. B 95, 235139 (2017)
68. Temperature and Phase Transition Sensing in Liquids with Fluorescent Probes
I. Shishkin, T. Alon, R. Dagan, and P.Ginzburg;
MRS Advances 2, 44, 2391-2399 (2017)
67. Spontaneous Emission in Nonlocal Materials
P.Ginzburg, D. Roth, M. Nasir, P. Olvera, A. Krasavin, J. Levitt, L. Hirvonen, B. Wells, K. Suhling, D. Richards, V. Podolskiy, and
A. Zayats;
Light: Science & Applications 6, e16273 (2017)
66. Asymmetric Backscattering from the Hybrid Magneto-Electric Meta Particle
V. Kozlov, D. Filonov, A. Shalin, B. Steinberg, and P. Ginzburg;
Appl. Phys. Lett. 109, 203503 (2016)
65. Controlling electromagnetic scattering with wire metamaterial resonators
D. Filonov, A. Shalin, I. Iorsh, P. Belov, and
P. Ginzburg;
Journal of the Optical Society of America 33, 10, pp. 1910-1916 (2016)
64. Micro-Doppler Frequency Comb Generation by Axially Rotating Scatterers
V. Kozlov, D. Filonov, Y. Yankelevich, and
P. Ginzburg;
Journal of Quantitative Spectroscopy and Radiative Transfer, 190 (2017)
63. Resonant Meta-atoms with Nonlinearities on Demand
D. Filonov, Y. Kramer, V. Kozlov, B. Malomed, and P. Ginzburg;
Appl. Phys. Lett. 109, 111904 (2016)
62. Cavity quantum electrodynamics in application to plasmonics and metamaterials
P. Ginzburg;
Reviews in Physics, Volume 1, 120–139 (2016)
61. Nonlocality-driven supercontinuum white light generation in plasmonic nanostructures
A. Krasavin, P. Ginzburg, G. Wurtz, and
A. Zayats;
Nature Communications 7, 11497 (2016)
60. Enhancement of artificial magnetism via resonant bianisotropy
D. Markovich, K. Baryshnikova, A. Shalin, A. Samusev, A. Krasnok, P. Belov, and P. Ginzburg;
Scientific Reports 6, 22546 (2016)
59. Accelerating spontaneous emission in open resonators
P. Ginzburg;
Annalen der Physik (Berlin), 7-8, 571-579 (2016)
58. Transformation quantum optics: designing spontaneous emission using coordinate transformations
J. Zhang, M. Wubs, P. Ginzburg, G. Wurtz, and A. Zayats;
Journal of Optics, 18(4), 044029 (2016)
57. Hyperbolic metamaterial antenna for second-harmonic generation tomography
P. Segovia, G. Marino, A. Krasavin, N. Olivier, G. Wurtz, P. Belov, P. Ginzburg, and A. Zayats;
Opt. Express 23, 30730-30738 (2015)
56. Purcell effect in Hyperbolic Metamaterial Resonators
A. Slobozhanyuk, P. Ginzburg, A. Powell,
I. Iorsh, A. Shalin, P. Segovia, A. Krasavin, G. Wurtz, V. Podolskiy, P. Belov, and A. Zayats;
Phys. Rev. B. 92, 195127 (2015)
55. Optical forces in nanorod metamaterial
A. Bogdanov, A. Shalin, and P. Ginzburg;
Scientific Reports 5, 15846 (2015)
54. Giant Optical Activity of Quantum Dots, Rods, and Disks with Screw Dislocations
A. Baimuratov, I. Rukhlenko, R. Noskov,
P. Ginzburg, Y. Gun'ko, A. Baranov, and
A. Fedorov;
Scientific Reports 5, 14712 (2015)
53. Optical pulling forces in hyperbolic metamaterials
A. Shalin, S. Sukhov, A. Bogdanov, P. Belov, and P. Ginzburg;
Phys. Rev. A 91, 063830 (2015)
52. Compton like polariton scattering in hyperbolic metamaterials
I. Iorsh, A. Poddubny, P. Ginzburg, P. Belov, and Y. Kivshar;
Phys. Rev. Lett. 114, 185501 (2015)
51. Probing magnetic and electric optical responses of silicon nanoparticles
D. Permyakov, I. Sinev, D. Markovich, P. Ginzburg, A. Samusev, P. A. Belov, V. Valuckas, A. Kuznetsov, B. Luk’yanchuk, A.Miroshnichenko, D. Neshev, and Y.S. Kivshar;
Appl. Phys. Lett. 106, 171110 (2015)
PREVIOUS (before TAU)
50. Scattering suppression from arbitrary objects in spatially-dispersive layered metamaterials
A. Shalin, P. Ginzburg, A. Orlov, I. Iorsh,
P. Belov, Y. Kivshar, and A. Zayats;
Phys. Rev. B 91, 125426 (2015)
49. Non-perturbative Hydrodynamic Model for Multiple Harmonics Generation in Metallic Nanostructures
P.Ginzburg, A. V. Krasavin, G. A. Wurtz, and
A. V. Zayats;
ACS Photonics 2 (1), 8–13 (2015)
48. Spin-orbit coupling in surface plasmon scattering by nanostructures
D. O’Connor, P. Ginzburg, F. Rodriguez-Fortuno, G. Wurtz, and A. Zayats;
Nature Commun. 5, 5327 (2014)
47. Impact of Nonradiative Line Broadening on Emission in Photonic and Plasmonic Cavities
P. Ginzburg,A. V. Krasavin, D. Richards, and
A. Zayats;
Phys. Rev. A 90, 043836 (2014)
46. Light emission in nonlocal plasmonic metamaterials
V.Podolskiy, P. Ginzburg, B. Wells, and
A. Zayats;
Faraday Discussions 178 (2014)
45. Magnetic dipole radiation tailored by substrates: numerical investigation
D. Markovich, P. Ginzburg, A. Samusev,
P. Belov, and A. Zayats;
Opt. Express 22, 10693-10702 (2014)
44. Ultrafast all-optical modulation with hyperbolic metamaterial integrated in Si photonic circuitry
A. Neira, G. Wurtz, P. Ginzburg, and A. Zayats;
Opt. Express 22, 10987-10994 (2014)
43. Photonic spin Hall effect in hyperbolic metamaterials for polarization-controlled routing of subwavelength modes
V. Kapitanova, P. Ginzburg, F. J. Rodriguez-Fortuno, D. Filonov, M. Voroshilov, P. Belov,
A. Poddubny, Y. Kivshar, G. Wurtz, and
A. Zayats;
Nature Commun. 5, 3226 (2014)
42. Nano-opto-mechanical effects for guided light modulation
A. Shalin, P. Ginzburg, P. Belov, Y. Kivshar, and A. Zayats;
Laser & Photon. Rev.8, 131–136 (2014)
41. Localized Surface Plasmon Resonances in Spatially Dispersive Nano-Objects: Phenomenological Treatise
P. Ginzburg, and A. V. Zayats;
ACS Nano 7, 4334–4342 (2013)
40. Self-induced torque in hyperbolic metamaterials
P. Ginzburg, A. Krasavin, A. Poddubny P. Belov, Y. Kivshar, and A. Zayats;
Phys. Rev. Lett. 111, 036804 (2013)
39. Manipulating Polarization of Light with Ultrathin Epsilon-Near-Zero Metamaterials
P. Ginzburg, F. Rodríguez Fortuño, G. Wurtz, W. Dickson, A. Zayats, I. Iorsh,
A. Atrashchenko, P. Belov, Y. Kivshar, A. Nevet, G. Ankonina, and M. Orenstein;
Opt. Express 21, 14907-14917 (2013)
38. Near-Field Interference for the Unidirectional Excitation of Electromagnetic Guided Modes
F. Rodríguez-Fortuño, G. Marino, P. Ginzburg, D. O’Connor, A. Martínez, G. Wurtz, and A. Zayats;
Science 340, 328-330 (2013)
37. Fabrication and optical properties of large-scale arrays of gold nanocavities based on rod-in-a-tube coaxial
A. Murphy, Y. Sonnefraud, A. Krasavin,
P. Ginzburg, F. Morgan, J. McPhillips, G. Wurtz, S. Maier, A. Zayats, and R. Pollard;
Phys. Rev. Lett. 114, 185501 (2015)
36. Linewidth enhancement in spasers and plasmonic nanolasers
P. Ginzburg and A. Zayats;
Opt. Express 21, 2147-2153 (2013)
35. Cascaded second-order surface plasmon solitons due to intrinsic metal nonlinearity
P. Ginzburg, A. Krasavin, and A. Zayats;
New J. Phys. 15, 013031 (2013)
34. Analogue of the Quantum Hanle Effect and Polarization Conversion in Non-Hermitian Plasmonic Metamaterials
P. Ginzburg, F. Rodriguez-Fortuno, A. Martinez, and A. Zayats;
Nano Letters 12 (12), 6309–6314 (2012)
33. Tailoring and enhancing spontaneous two-photon emission using resonant plasmonic nanostructures
A. Poddubny, P. Ginzburg, P. Belov, A. Zayats, and Y. S. Kivshar;
Phys. Rev. A 86, 033826 (2012)
32. Microscopic model of Purcell enhancement in hyperbolic metamaterials
A. Poddubny, P. Belov, P.Ginzburg, A. Zayats, and Y. Kivshar;
Phys. Rev. B 86, 035148 (2012)
31. Nonlinearly coupled localized plasmon resonances: Resonant second-harmonic generation
P. Ginzburg, A. Krasavin, S. Sonnefraud,
A. Murphy, R. Pollard, S. Maier, and A. Zayats;
Phys. Rev. B 86, 085422 (2012)
30. Non-exponential decay of dark localized surface plasmons
P. Ginzburg, and A. Zayats;
Phys. Rev. A 86, 033826 (2012)
29. Nano-plasmonic antennas in the near infrared regime
N. Berkovitch, P. Ginzburg, and M. Orenstein;
J. Phys.: Condens. Matter 24, 073202, (2012)
28. Indistinguishable photon pairs from independent true chaotic sources
A. Nevet, A. Hayat, P. Ginzburg, and
M. Orenstein;
Phys. Rev. Lett. 107, 253601 (2011)
27. Applications of two-photon processes for semiconductor photonic devices
A. Hayat, A. Nevet, P. Ginzburg, and
M. Orenstein;
Semicond. Sci. Technol. 26, 083001 (2011)
26. Plasmonic resonance effects for tandem receiving-transmitting nano-antennas
P. Ginzburg, N. Amir, N. Berkovitch,
A. Normatov, G. Lerman, A. Yanai, U. Levy, and M. Orenstein;
Nano Lett. 11, 220–224 (2011)
25. Resonances On-Demand for Plasmonic Nano-Particles
P. Ginzburg, N. Berkovitch, A. Nevet, I. Shor, and M. Orenstein;
Nano Lett. 11, 220–224 (2011)
24. Concave plasmonic particles: broad-band geometrical tunability in the near-infrared
N. Berkovitch, P. Ginzburg, and M. Orenstein;
Nano Letters 10, 1405 (2010)
23. Nonlocal ponderomotive nonlinearity in plasmonics
P. Ginzburg, A. Hayat, N. Berkovitch, and M. Orenstein;
Opt. Lett. 35, 1551 (2010)
22. Photon-energy qubit generation by spontaneous emission in a V-type system
P. Ginzburg, M. Shalyt, A. Hayat, and
M. Orenstein;
Phys. B: At. Mol. Opt. Phys. 43, 105502 (2010)
21. Plasmonic nanoantennas for broad-band enhancement of two-photon emission from semiconductors
A. Nevet, N. Berkovitch, A. Hayat, P. Ginzburg, S. Ginzach, O. Sorias, and M. Orenstein;
Nano Letters 10, 1848–1852 (2010)
20. Photon hole nondemolition measurement scheme by electromagnetically induced transparency
S. Rosenblum, A. Hayat, P. Ginzburg, D. Neiman, and M. Orenstein;
Phys. Rev. A 81, 053848 (2010)
19. Efficient coupling and field enhancement for the nano-scale: plasmonic needle
A. Normatov, P. Ginzburg, N. Berkovitch,
G. Lerman, A. Yanai, U. Levy, and M. Orenstein;
Opt. Express 18, 14079-14086 (2010)
18. Photonic logic by linear unidirectional interference
P. Ginzburg, A. Hayat, V. Vishnyakov, and
M. Orenstein;
Opt. Express 17, 4251-4256 (2009)
17. Numerical Study of Few-Cycle Pulses by Nonlinear Compression in Two-Photon Semiconductor Amplifier
N. Kaminsky, A. Hayat, P. Ginzburg, and
M. Orenstein;
Photon. Tech. Lett. 21, 173 (2009)
16. Photon energy entanglement characterization by electronic transition interference
A. Hayat, P. Ginzburg, and M. Orenstein;
Opt. Express 17, 21280- 21288 (2009)
15. Measurement and model of the infrared two-photon emission spectrum of GaAs
A. Hayat, P. Ginzburg, and M. Orenstein;
Phys. Rev. Lett. 103, 023601 (2009)
14. Rigorous analysis of vectorial plasmonic diffraction: single- and double-slit experiments
P. Ginzburg, E. Hirshberg, and M. Orenstein;
Opt. A: Pure Appl. Opt. 11, 114024 (2009)
13. Observation of Two-Photon Emission from Semiconductors
A. Hayat, P. Ginzburg, and M. Orenstein;
Nature Photon. 2, 238 (2008)
12. Infrared single-photon detection by two-photon absorption in silicon
A. Hayat, P. Ginzburg, and M. Orenstein;
Phys. Rev. B 77, 125219 (2008)
11. Nonmetallic left-handed material based on negative-positive anisotropy in low-dimensional quantum structures
P. Ginzburg, and M. Orenstein;
Appl. Phys. 103, 083105 (2008)
10. Hyperentanglement Source by Intersubband Two-Photon Emission from Semiconductor Quantum Wells
A. Hayat, P. Ginzburg, D. Neiman,
S. Rosenblum, and M. Orenstein;
Opt. Lett. 33, 1168-1170 (2008)
9. Metal-free Quantum-based Metamaterial for Surface Plasmon Polariton Guiding with Amplification
P. Ginzburg and M. Orenstein;
Appl. Phys. 104, 063513 (2008)
8. Plasmonic transmission lines: from micro to nano scale with λ/4 impedance matching
P. Ginzburg, and M. Orenstein;
Appl. Phys. 104, 063513 (2008)
7. High-Rate Entanglement Source via Two-Photon Emission from Semiconductor Quantum Wells
A. Hayat, P. Ginzburg, and M. Orenstein;
Phys. Rev. B 76, 035339 (2007)
5. Nonlinear optics with local phasematching by quantum based meta-material
P. Ginzburg, A. Hayat, M. Orenstein;
Opt. A: Pure Appl. Opt. 9, S350 (2007)
4. Semiconductor Two-Photon Emission Sources
A. Hayat, P. Ginzburg, and M. Orenstein;
Opt. A: Pure Appl. Opt. 9, S350 (2007)
3. Slow Light and Voltage Control of Group Velocity in Resonantly Coupled Quantum Wells
P. Ginzburg, and M. Orenstein;
Optics Express 14, 12467-12472 (2006)
2. Photonic Switching in Waveguides Using Spatial Concepts Inspired by EIT
P. Ginzburg, and M. Orenstein;
Optics Express 14, 11312-11317 (2006)
1. Gap Plasmon polariton structure for very efficient microscale to nanoscale interfacing
P. Ginzburg, D. Arbel, and M. Orenstein;
Opt. Lett. 31, 3288-3290 (2006)
