D-Index & Metrics Best Publications

D-Index & Metrics D-index (Discipline H-index) only includes papers and citation values for an examined discipline in contrast to General H-index which accounts for publications across all disciplines.

Discipline name D-index D-index (Discipline H-index) only includes papers and citation values for an examined discipline in contrast to General H-index which accounts for publications across all disciplines. Citations Publications World Ranking National Ranking
Engineering and Technology D-index 34 Citations 4,107 125 World Ranking 3699 National Ranking 31

Overview

What is he best known for?

The fields of study he is best known for:

  • Quantum mechanics
  • Optics
  • Photon

Pavel Ginzburg focuses on Plasmon, Optics, Optoelectronics, Surface plasmon and Photonics. The Plasmon study combines topics in areas such as Particle, Computational physics, Condensed matter physics, Nonlinear system and Electron. He has researched Optics in several fields, including Excitation and Electric power transmission.

He combines subjects such as Polarization and Nano- with his study of Optoelectronics. His research investigates the connection with Surface plasmon and areas like Surface wave which intersect with concerns in Superposition principle, Interference, Finite-difference time-domain method and Microscale chemistry. Pavel Ginzburg interconnects Polariton and Silicon in the investigation of issues within Photonics.

His most cited work include:

  • Near-Field Interference for the Unidirectional Excitation of Electromagnetic Guided Modes (418 citations)
  • Spin–orbit coupling in surface plasmon scattering by nanostructures (192 citations)
  • Photonic spin Hall effect in hyperbolic metamaterials for polarization-controlled routing of subwavelength modes (182 citations)

What are the main themes of his work throughout his whole career to date?

His scientific interests lie mostly in Optoelectronics, Optics, Plasmon, Metamaterial and Surface plasmon. In his study, Quantum optics is strongly linked to Spontaneous emission, which falls under the umbrella field of Optoelectronics. His research investigates the connection between Optics and topics such as Dipole that intersect with issues in Polarization.

His work investigates the relationship between Plasmon and topics such as Nonlinear system that intersect with problems in Electron and Harmonics. His Metamaterial research integrates issues from Dispersion, Nanorod, Condensed matter physics and Anisotropy. His Surface plasmon study incorporates themes from Polariton and Optical tweezers.

He most often published in these fields:

  • Optoelectronics (44.48%)
  • Optics (47.59%)
  • Plasmon (36.21%)

What were the highlights of his more recent work (between 2019-2021)?

  • Metamaterial (38.62%)
  • Scattering (21.72%)
  • Resonator (10.00%)

In recent papers he was focusing on the following fields of study:

His main research concerns Metamaterial, Scattering, Resonator, Optoelectronics and Optics. His Metamaterial study combines topics in areas such as Biocompatibility, Mesoscopic physics and Broadband. His studies in Scattering integrate themes in fields like Computational physics and Interference.

The various areas that Pavel Ginzburg examines in his Resonator study include Dipole, Energy, Footprint and Multipole expansion. Plasmon and Photonics are the subjects of his Optoelectronics studies. In the subject of general Optics, his work in Electromagnetic radiation is often linked to Slab, thereby combining diverse domains of study.

Between 2019 and 2021, his most popular works were:

  • Multispectral sensing of biological liquids with hollow-core microstructured optical fibres. (10 citations)
  • Multispectral sensing of biological liquids with hollow-core microstructured optical fibres. (10 citations)
  • Auxiliary Optomechanical Tools for 3D Cell Manipulation (7 citations)

In his most recent research, the most cited papers focused on:

  • Quantum mechanics
  • Optics
  • Photon

Optoelectronics, Broadband, Metamaterial, Optical tweezers and Nanostructure are his primary areas of study. His Optoelectronics research is multidisciplinary, relying on both Optical fiber and Biosensor. The Broadband study combines topics in areas such as Antenna gain, Transmission and Electromagnetic radiation.

Metamaterial is the subject of his research, which falls under Optics. He has researched Optical tweezers in several fields, including Nanoscopic scale, Hyperbolic metamaterials and Surface plasmon. Biocompatible material, Protein structure, Peptide, Green fluorescent protein and Amyloid are fields of study that intersect with his Nanostructure research.

This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.

Best Publications

Near-Field Interference for the Unidirectional Excitation of Electromagnetic Guided Modes

Francisco J. Rodríguez-Fortuño;Francisco J. Rodríguez-Fortuño;Giuseppe Marino;Pavel Ginzburg;Daniel O’Connor.
Science (2013)

620 Citations

Photonic spin Hall effect in hyperbolic metamaterials for polarization-controlled routing of subwavelength modes

Polina V. Kapitanova;Pavel Ginzburg;Francisco J. Rodríguez-Fortuño;Dmitry S. Filonov.
Nature Communications (2014)

250 Citations

Spin–orbit coupling in surface plasmon scattering by nanostructures

D O'Connor;P Ginzburg;F J Rodríguez-Fortuño;G A Wurtz.
Nature Communications (2014)

237 Citations

Gap plasmon polariton structure for very efficient microscale-to-nanoscale interfacing

Pavel Ginzburg;David Arbel;Meir Orenstein.
Optics Letters (2006)

182 Citations

Gap plasmon polariton structure for very efficient micro to nano scale interfacing

Pavel Ginzburg;David Arbel;Meir Orenstein.
arXiv: Optics (2006)

163 Citations

Observation of two-photon emission from semiconductors

Alex Hayat;Pavel Ginzburg;Meir Orenstein.
Nature Photonics (2008)

158 Citations

Microscopic model of Purcell enhancement in hyperbolic metamaterials

Alexander N. Poddubny;Pavel A. Belov;Pavel Ginzburg;Anatoly V. Zayats.
Physical Review B (2012)

129 Citations

Manipulating polarization of light with ultrathin epsilon-near-zero metamaterials.

Pavel Ginzburg;F. J. Rodriguez Fortuno;Gregory Wurtz;Wayne Dickson.
Optics Express (2013)

122 Citations

Plasmonic transmission lines: from micro to nano scale with λ/4 impedance matching

Pavel Ginzburg;Meir Orenstein.
Optics Express (2007)

113 Citations

Nano-plasmonic antennas in the near infrared regime

N. Berkovitch;Pavel Ginzburg;M. Orenstein.
Journal of Physics: Condensed Matter (2012)

108 Citations

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