H-Index & Metrics Best Publications

H-Index & Metrics

Discipline name H-index Citations Publications World Ranking National Ranking
Engineering and Technology D-index 37 Citations 5,956 249 World Ranking 2955 National Ranking 1170

Research.com Recognitions

Awards & Achievements

2020 - IEEE Fellow For contributions to development of electromagnetic phenomena in metamaterials and periodic structures

Overview

What is he best known for?

The fields of study he is best known for:

  • Optics
  • Quantum mechanics
  • Wavelength

Filippo Capolino mainly focuses on Optics, Metamaterial, Plasmon, Condensed matter physics and Dipole. His Optics research incorporates elements of Electric field, Directivity, Optoelectronics, Dielectric and Radiation pattern. His Photonic metamaterial study in the realm of Metamaterial interacts with subjects such as Planar.

Filippo Capolino has researched Plasmon in several fields, including Finite thickness, Aperture, Absorption and Superlattice. As a part of the same scientific study, Filippo Capolino usually deals with the Condensed matter physics, concentrating on Photonic crystal and frequently concerns with Nonlinear optics and Split-ring resonator. His Dipole research is multidisciplinary, relying on both Molecular physics, Scattering and Plane wave.

His most cited work include:

  • Millimeter-wave massive MIMO: the next wireless revolution? (388 citations)
  • Array thinning by using antennas in a Fabry-Perot cavity for gain enhancement (212 citations)
  • Graphene-based tunable hyperbolic metamaterials and enhanced near-field absorption. (211 citations)

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

His primary areas of study are Optics, Metamaterial, Optoelectronics, Plasmon and Mathematical analysis. Filippo Capolino combines subjects such as Dipole and Antenna with his study of Optics. His research investigates the connection between Metamaterial and topics such as Polarization that intersect with issues in Wavenumber.

In his study, Antenna measurement is strongly linked to Radiation pattern, which falls under the umbrella field of Optoelectronics. His Plasmon study incorporates themes from Resonance and Electric field. His research investigates the connection between Mathematical analysis and topics such as Floquet theory that intersect with problems in Time domain.

He most often published in these fields:

  • Optics (53.27%)
  • Metamaterial (23.82%)
  • Optoelectronics (19.82%)

What were the highlights of his more recent work (between 2016-2021)?

  • Optics (53.27%)
  • Degeneracy (9.09%)
  • Degenerate energy levels (8.73%)

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

His main research concerns Optics, Degeneracy, Degenerate energy levels, Resonator and Computational physics. His work deals with themes such as Magnetic field, Microwave and Antenna, which intersect with Optics. His research on Degeneracy also deals with topics like

  • Q factor which connect with Resonance,
  • Mathematical analysis which connect with Coupling.

His Degenerate energy levels study integrates concerns from other disciplines, such as Waveguide, Microstrip, Electric power transmission and Edge. His Resonator research incorporates themes from Photonics, Time complexity, Sensitivity, Eigenvalues and eigenvectors and Scaling. The Computational physics study combines topics in areas such as Polarization, Circular polarization, Beam, Wavenumber and Cathode ray.

Between 2016 and 2021, his most popular works were:

  • Theory of coupled resonator optical waveguides exhibiting high-order exceptional points of degeneracy (36 citations)
  • Theory of Exceptional Points of Degeneracy in Uniform Coupled Waveguides and Balance of Gain and Loss (32 citations)
  • Giant Circular Dichroism at Visible Frequencies Enabled by Plasmonic Ramp-Shaped Nanostructures (31 citations)

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

  • Quantum mechanics
  • Optics
  • Electromagnetic radiation

Filippo Capolino mainly investigates Optics, Resonator, Degeneracy, Degenerate energy levels and Optoelectronics. His Optics research includes elements of Polarizability, Magnetic field and Antenna. His Resonator study combines topics in areas such as Radio frequency, Amplifier and Scaling.

His Degeneracy research includes themes of Symmetry, Q factor, Lasing threshold, Microwave and Topology. His study in Degenerate energy levels is interdisciplinary in nature, drawing from both Photonics, Computational physics and Eigenvalues and eigenvectors. The study incorporates disciplines such as Characterization, Cantilever, Background noise and Photon in addition to Optoelectronics.

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

Millimeter-wave massive MIMO: the next wireless revolution?

A. Lee Swindlehurst;Ender Ayanoglu;Payam Heydari;Filippo Capolino.
IEEE Communications Magazine (2014)

687 Citations

Theory and Phenomena of Metamaterials

Filippo Capolino.
(2009)

587 Citations

Array thinning by using antennas in a Fabry-Perot cavity for gain enhancement

Renato Gardelli;Matteo Albani;Filippo Capolino.
IEEE Transactions on Antennas and Propagation (2006)

287 Citations

Graphene-based tunable hyperbolic metamaterials and enhanced near-field absorption.

Mohamed A. K. Othman;Caner Guclu;Filippo Capolino.
Optics Express (2013)

263 Citations

Analysis of directive radiation from a line source in a metamaterial slab with low permittivity

G. Lovat;P. Burghignoli;F. Capolino;D.R. Jackson.
IEEE Transactions on Antennas and Propagation (2006)

209 Citations

Applications of Metamaterials

Filippo Capolino.
(2009)

196 Citations

Low Profile Fully Planar Folded Dipole Antenna on a High Impedance Surface

A. Vallecchi;J. R. De Luis;F. Capolino;F. De Flaviis.
IEEE Transactions on Antennas and Propagation (2012)

181 Citations

Efficient computation of the 2-D Green's function for 1-D periodic structures using the Ewald method

F. Capolino;D.R. Wilton;W.A. Johnson.
IEEE Transactions on Antennas and Propagation (2005)

149 Citations

Band gap formation and multiple scattering in photonic quasicrystals with a Penrose-type lattice

A. Della Villa;A. Della Villa;S. Enoch;G. Tayeb;V. Pierro.
Physical Review Letters (2005)

133 Citations

Complex modes and near-zero permittivity in 3D arrays of plasmonic nanoshells: loss compensation using gain [Invited]

Salvatore Campione;Matteo Albani;Filippo Capolino.
Optical Materials Express (2011)

118 Citations

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