2018 - IEEE Fellow For contributions to optical and infrared antenna technologies
2000 - SPIE Fellow
Glenn D. Boreman mainly focuses on Optics, Optoelectronics, Infrared, Antenna and Detector. His Optics study frequently involves adjacent topics like Permittivity. When carried out as part of a general Optoelectronics research project, his work on Diode is frequently linked to work in Dipole, therefore connecting diverse disciplines of study.
The Infrared study combines topics in areas such as Sampling, Staring, Frequency response, Particle detector and Radiometry. The concepts of his Antenna study are interwoven with issues in Near-field scanning optical microscope, Transmission line and Infrared detector. Glenn D. Boreman has researched Detector in several fields, including Zone plate, Figure of merit, Photodiode and Laser power scaling.
His scientific interests lie mostly in Optics, Optoelectronics, Infrared, Detector and Antenna. His study in Wavelength, Optical transfer function, Polarization, Bolometer and Spatial frequency is done as part of Optics. While the research belongs to areas of Optoelectronics, Glenn D. Boreman spends his time largely on the problem of Electron-beam lithography, intersecting his research to questions surrounding Lithography.
The various areas that Glenn D. Boreman examines in his Infrared study include Absorption, Near-infrared spectroscopy, Cosmology, Dielectric and Microwave. His Detector research incorporates elements of Image resolution, Sprite and Signal processing. His Antenna research is multidisciplinary, incorporating elements of Near-field scanning optical microscope, Microstrip and Transmission line.
Glenn D. Boreman focuses on Optics, Optoelectronics, Infrared, Near and far field and Near-field scanning optical microscope. His studies in Optics integrate themes in fields like Phase and Antenna. His research integrates issues of Transmission line, Detector and Impedance matching in his study of Antenna.
His Optoelectronics course of study focuses on Absorption and Layer and Thin film. His research in Infrared intersects with topics in Broadband, Near-infrared spectroscopy, Planar, Microwave and Laser. His Near-field scanning optical microscope research is multidisciplinary, incorporating perspectives in Scattering and Molar absorptivity.
Optics, Optoelectronics, Infrared, Metamaterial and Near-field scanning optical microscope are his primary areas of study. In most of his Optics studies, his work intersects topics such as Phase. His studies deal with areas such as Absorption, Electron beam physical vapor deposition and Photoresist as well as Optoelectronics.
His Infrared research incorporates elements of Near-infrared spectroscopy, Dielectric, Terahertz radiation, Reflection and Laser. His study in Metamaterial is interdisciplinary in nature, drawing from both Square, Edge and Benzocyclobutene. His work deals with themes such as Scattering and Near and far field, which intersect with Near-field scanning optical microscope.
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Infrared detectors and systems
Eustace L Dereniak;Glenn D Boreman.
Modulation Transfer Function in Optical and Electro-Optical Systems
Glenn D Boreman.
Optical dielectric function of gold
Robert L. Olmon;Brian Slovick;Timothy W. Johnson;David Shelton.
Physical Review B (2012)
Optical dielectric function of silver
Honghua U. Yang;Jeffrey D'Archangel;Michael L. Sundheimer;Eric Tucker.
Physical Review B (2015)
Plasmon dispersion relation of Au and Ag nanowires
Gerburg Schider;Joachim R. Krenn;Andreas Hohenau;Harald Ditlbacher.
Physical Review B (2003)
Comparison of dipole, bowtie, spiral and log-periodic IR antennas
F.J. González;G.D. Boreman.
Infrared Physics & Technology (2005)
Modulation Transfer Function
Glenn D. Boreman.
Optical antennas for nano-photonic applications
Javier Alda;José María Rico-García;José Manuel López-Alonso;Glenn Boreman.
Classification of imaging spectrometers for remote sensing applications
R. Glenn Sellar;Glenn D. Boreman.
Optical Engineering (2005)
Near-field imaging of optical antenna modes in the mid-infrared.
Robert L. Olmon;Peter M. Krenz;Andrew C. Jones;Glenn D. Boreman.
Optics Express (2008)
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