His scientific interests lie mostly in Microstructure, Optics, Composite material, Metallurgy and Transmission electron microscopy. His study in the fields of Metallography, Acicular and Martensite under the domain of Microstructure overlaps with other disciplines such as Precipitation. His Optics research incorporates elements of Transmission and Microwave.
In Metallurgy, Francisco Medina works on issues like Cathode ray, which are connected to Near net shape, Lamellar structure, Intermetallic, Characterization and Titanium aluminide. His Transmission electron microscopy research is multidisciplinary, relying on both Grain boundary, Selective laser melting and Scanning electron microscope. The Metamaterial study combines topics in areas such as Wave propagation, Left handed and Resonator.
Optics, Microstrip, Electronic engineering, Mathematical analysis and Equivalent circuit are his primary areas of study. His Optics study incorporates themes from Transmission, Transmission line and Dielectric. His Microstrip study combines topics from a wide range of disciplines, such as Electrical impedance, Characteristic impedance, STRIPS, Ground plane and Propagation constant.
His research in Electronic engineering intersects with topics in Coplanar waveguide, Microwave, Electric power transmission and Topology. Francisco Medina has researched Mathematical analysis in several fields, including Function, Matrix and Computation. His research on Resonator also deals with topics like
His primary areas of study are Optics, Equivalent circuit, Resonator, Topology and Transmission. His Optics research is multidisciplinary, incorporating perspectives in Excitation and Graphene. His Equivalent circuit study combines topics in areas such as Scattering, Mathematical analysis, Electrical element, Topology and Selective surface.
The various areas that Francisco Medina examines in his Resonator study include Electronic engineering, Passband, Band-pass filter and Inductive coupling. His work deals with themes such as Ground plane, Electromagnetic radiation and Coplanar waveguide, Microwave, which intersect with Electronic engineering. His Topology research includes themes of Metamaterial, Electronic circuit, Harmonic analysis and Coupling.
The scientist’s investigation covers issues in Equivalent circuit, Mathematical analysis, Electronic engineering, Optics and Topology. His biological study spans a wide range of topics, including Electrical element, Transmission, Scattering and Wideband. The study incorporates disciplines such as Conical surface, Electronic circuit, Computation and Aperture in addition to Mathematical analysis.
His Electronic engineering research incorporates elements of Wave propagation and Coplanar waveguide. His study in the field of Broad band is also linked to topics like Experimental validation. The various areas that Francisco Medina examines in his Topology study include Symmetry, Diplexer, Inductive coupling, Band-pass filter and Resonator.
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Metal Fabrication by Additive Manufacturing Using Laser and Electron Beam Melting Technologies
Lawrence E. Murr;Sara M. Gaytan;Diana A. Ramirez;Edwin Martinez.
Journal of Materials Science & Technology (2012)
Role of bianisotropy in negative permeability and left-handed metamaterials
Ricardo Marques;Francisco Medina;Rachid Rafii-El-Idrissi.
Physical Review B (2002)
Microstructure and mechanical behavior of Ti-6Al-4V produced by rapid-layer manufacturing, for biomedical applications.
L.E. Murr;S.A. Quinones;S.M. Gaytan;M.I. Lopez.
Journal of The Mechanical Behavior of Biomedical Materials (2009)
Comparative analysis of edge- and broadside- coupled split ring resonators for metamaterial design - theory and experiments
R. Marques;F. Mesa;J. Martel;F. Medina.
IEEE Transactions on Antennas and Propagation (2003)
Microstructures and mechanical behavior of Inconel 718 fabricated by selective laser melting
K.N. Amato;S.M. Gaytan;L.E. Murr;E. Martinez.
Acta Materialia (2012)
Left-Handed-Media Simulation and Transmission of EM Waves in Subwavelength Split-Ring-Resonator-Loaded Metallic Waveguides
R. Marqués;J. Martel;F. Mesa;F. Medina.
Physical Review Letters (2002)
Next-generation biomedical implants using additive manufacturing of complex, cellular and functional mesh arrays
L. E. Murr;S. M. Gaytan;F. Medina;H. Lopez.
Philosophical Transactions of the Royal Society A (2010)
Microstructures and mechanical properties of electron beam-rapid manufactured Ti–6Al–4V biomedical prototypes compared to wrought Ti–6Al–4V
L.E. Murr;E.V. Esquivel;S.A. Quinones;S.M. Gaytan.
Materials Characterization (2009)
Artificial magnetic metamaterial design by using spiral resonators
Juan D. Baena;Ricardo Marqués;Francisco Medina;Jesús Martel.
Physical Review B (2004)
Characterization of titanium aluminide alloy components fabricated by additive manufacturing using electron beam melting
L.E. Murr;S.M. Gaytan;A. Ceylan;E. Martinez.
Acta Materialia (2010)
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