D-Index & Metrics Best Publications

D-Index & Metrics

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 46 Citations 6,679 211 World Ranking 1859 National Ranking 769

Research.com Recognitions

Awards & Achievements

2015 - IEEE Fellow For contributions to time-domain electromagnetic techniques and applications

Overview

What is he best known for?

The fields of study he is best known for:

  • Quantum mechanics
  • Optics
  • Mathematical analysis

Mathematical analysis, Finite-difference time-domain method, Perfectly matched layer, Optics and Maxwell's equations are his primary areas of study. His work is dedicated to discovering how Mathematical analysis, Finite element method are connected with Domain and other disciplines. His Finite-difference time-domain method research includes themes of Wave propagation, Acoustics, Numerical analysis and Well logging.

His Perfectly matched layer research includes elements of Geometry, Cartesian coordinate system, Computer simulation and Analytic continuation. His studies in Optics integrate themes in fields like Singular value decomposition and Eigenvalues and eigenvectors. His work in Maxwell's equations addresses issues such as Differential equation, which are connected to fields such as Metamaterial and Waveguide.

His most cited work include:

  • Systematic derivation of anisotropic PML absorbing media in cylindrical and spherical coordinates (207 citations)
  • Lattice electromagnetic theory from a topological viewpoint (174 citations)
  • Plasmon-enhanced optical absorption and photocurrent in organic bulk heterojunction photovoltaic devices using self-assembled layer of silver nanoparticles (173 citations)

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

Fernando L. Teixeira mostly deals with Mathematical analysis, Finite-difference time-domain method, Optics, Perfectly matched layer and Maxwell's equations. In Mathematical analysis, Fernando L. Teixeira works on issues like Anisotropy, which are connected to Electromagnetic field. His Finite-difference time-domain method research is multidisciplinary, relying on both Computational electromagnetics, Wave propagation, Computer simulation, Numerical analysis and Finite difference method.

The various areas that he examines in his Optics study include Acoustics, Optoelectronics and Computational physics. His Acoustics research focuses on subjects like Tomography, which are linked to Electronic engineering and Algorithm. His work investigates the relationship between Perfectly matched layer and topics such as Cylindrical coordinate system that intersect with problems in Well logging.

He most often published in these fields:

  • Mathematical analysis (29.75%)
  • Finite-difference time-domain method (24.25%)
  • Optics (24.50%)

What were the highlights of his more recent work (between 2015-2021)?

  • Algorithm (11.75%)
  • Tomography (6.00%)
  • Acoustics (9.00%)

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

His scientific interests lie mostly in Algorithm, Tomography, Acoustics, Mathematical analysis and Iterative reconstruction. His Algorithm study also includes fields such as

  • Inverse scattering problem that intertwine with fields like Nonlinear system, Deep learning and Function,

  • Charge conservation that intertwine with fields like Differential form, Field and Maxwell's equations,

  • Particle-in-cell, which have a strong connection to Model order reduction, Energy, Radio frequency and Polygon mesh. His research on Tomography also deals with topics like

  • Phase and related Optics,

  • Electronic engineering, which have a strong connection to Interference, Orthogonal polarization spectral imaging, Interference alignment and Singular value.

Fernando L. Teixeira has included themes like Velocity vector, Fourier transform and Electrical engineering in his Acoustics study. His research in Mathematical analysis intersects with topics in Geometry, Anisotropy, Finite-difference time-domain method and Transformation optics. His Iterative reconstruction study incorporates themes from Capacitance, Electrical capacitance tomography, Process tomography, Sensitivity and Relevance vector machine.

Between 2015 and 2021, his most popular works were:

  • DeepNIS: Deep Neural Network for Nonlinear Electromagnetic Inverse Scattering (81 citations)
  • A Comparison Between Electrical Capacitance Tomography and Displacement-Current Phase Tomography (31 citations)
  • Local, Explicit, and Charge-Conserving Electromagnetic Particle-In-Cell Algorithm on Unstructured Grids (27 citations)

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

  • Quantum mechanics
  • Optics
  • Mathematical analysis

His primary scientific interests are in Algorithm, Acoustics, Electrical capacitance tomography, Optics and Capacitance. His studies deal with areas such as Inverse scattering problem, Inverse problem, Field, Charge conservation and Convolutional neural network as well as Algorithm. The concepts of his Acoustics study are interwoven with issues in Velocity vector, Capacitive sensing, Electrical capacitance volume tomography, Mutual capacitance and Tomography.

His Electrical capacitance tomography research incorporates elements of Iterative reconstruction and Permittivity. In general Optics, his work in Wavelength, Holography, Diffraction efficiency and Diffraction is often linked to Operator linking many areas of study. His Mathematical analysis study is mostly concerned with Perfectly matched layer and Numerical analysis.

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

Systematic derivation of anisotropic PML absorbing media in cylindrical and spherical coordinates

F.L. Teixeira;W.C. Chew.
IEEE Microwave and Guided Wave Letters (1997)

294 Citations

General closed-form PML constitutive tensors to match arbitrary bianisotropic and dispersive linear media

F.L. Teixeira;W.C. Chew.
IEEE Microwave and Guided Wave Letters (1998)

268 Citations

Plasmon-enhanced optical absorption and photocurrent in organic bulk heterojunction photovoltaic devices using self-assembled layer of silver nanoparticles

Woo-Jun Yoon;Kyung-Young Jung;Jiwen Liu;Thirumalai Duraisamy.
Solar Energy Materials and Solar Cells (2010)

243 Citations

Lattice electromagnetic theory from a topological viewpoint

F. L. Teixeira;W. C. Chew.
Journal of Mathematical Physics (1999)

233 Citations

Time-Domain Finite-Difference and Finite-Element Methods for Maxwell Equations in Complex Media

F.L. Teixeira.
IEEE Transactions on Antennas and Propagation (2008)

233 Citations

Finite-difference time-domain simulation of ground penetrating radar on dispersive, inhomogeneous, and conductive soils

F.L. Teixeira;Weng Cho Chew;M. Straka;M.L. Oristaglio.
IEEE Transactions on Geoscience and Remote Sensing (1998)

232 Citations

PML-FDTD in cylindrical and spherical grids

F.L. Teixeira;W.C. Chew.
IEEE Microwave and Guided Wave Letters (1997)

215 Citations

Analytical derivation of a conformal perfectly matched absorber for electromagnetic waves

F. L. Teixeira;W. C. Chew.
Microwave and Optical Technology Letters (1998)

179 Citations

Full time-domain DORT for ultrawideband electromagnetic fields in dispersive, random inhomogeneous media

M.E. Yavuz;F.L. Teixeira.
IEEE Transactions on Antennas and Propagation (2006)

147 Citations

Differential Forms, Metrics, and the Reflectionless Absorption of Electromagnetic Waves

F.L. Teixeira;W.C. Chew.
Journal of Electromagnetic Waves and Applications (1999)

146 Citations

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