The scientist’s investigation covers issues in Electrical engineering, Dielectric, Partial discharge, Electronic engineering and Field. His research combines Magnitude and Electrical engineering. His research integrates issues of Wetting, Electric field, Infrared spectroscopy, Analytical chemistry and Diffusion in his study of Dielectric.
Steven A. Boggs combines subjects such as Electrical conductor, Attenuation, Order of magnitude and Shielded cable with his study of Partial discharge. His work in Electronic engineering addresses subjects such as Distribution, which are connected to disciplines such as Nonlinear system, Inhomogeneous field, Simplicity and Statistical physics. His studies in Field integrate themes in fields like Basis, Space charge, Condensed matter physics and Electrical resistivity and conductivity.
His main research concerns Electrical engineering, Dielectric, Electronic engineering, Electric field and Mechanics. His research on Electrical engineering frequently links to adjacent areas such as Acoustics. His research in Dielectric intersects with topics in Field, Composite material and Analytical chemistry.
His biological study spans a wide range of topics, including Resistive touchscreen, High voltage and Nonlinear system. His study in Electric field is interdisciplinary in nature, drawing from both Current density, Capacitive sensing, Electrical resistivity and conductivity and Conductivity. His Partial discharge research integrates issues from Attenuation and Switchgear.
Dielectric, Electrical engineering, Field, Electric field and Voltage are his primary areas of study. His Dielectric study integrates concerns from other disciplines, such as Electronic engineering and Composite material. His work on Electromagnetic coil, Partial discharge and Electrical conductor as part of general Electrical engineering study is frequently linked to Context, therefore connecting diverse disciplines of science.
His Field research includes themes of Quantum electrodynamics, Space charge, Phonon, Condensed matter physics and Magnetosphere particle motion. His Electric field research includes elements of Switchgear, Force field and Particle. His Voltage study combines topics in areas such as Capacitance, Mechanics and Transient.
Steven A. Boggs spends much of his time researching Dielectric, Electrical engineering, Phonon, Condensed matter physics and Field. Steven A. Boggs has included themes like Crystallinity, Polypropylene and Capacitor in his Dielectric study. His Electrical engineering study frequently links to other fields, such as Acoustics.
His Phonon research is multidisciplinary, incorporating elements of Electron scattering, Electron mobility and Dipole. His Condensed matter physics research incorporates elements of Scattering, Direct integration of a beam, Free electron model, Electric field and Density functional theory. Many of his research projects under Field are closely connected to Complex system, Relaxation and Context with Complex system, Relaxation and Context, tying the diverse disciplines of science together.
Vinit Sharma;Chenchen Wang;Robert G. Lorenzini;Rui Ma
J. Ho;T.R. Jow;S. Boggs
S.A. Boggs
S. A. Boggs;G. C. Stone
S. Boggs;J. Densley
S. Boggs;D.H. Damon;J. Hjerrild;J.T. Holboll
S.A. Boggs;F.Y. Chu;N. Fujimoto;A. Krenicky
S.A. Boggs
S. Boggs;A. Pathak;P. Walker
N. Wiegart;L. Niemeyer;F. Pinnekamp;J. Kindersberger
Y. Sun;S. A. Boggs;R. Ramprasad
H. Homma;T. Kuroyagi;K. Izumi;C.L. Mirley
C.C. Wang;G. Pilania;S.A. Boggs;S. Kumar
G. C. Stone;S. A. Boggs
J. Ho;Ramamurthy Ramprasad;S. Boggs
S. Boggs
S. Boggs
N. Fujimoto;E. P. Dick;S. A. Boggs;G. L. Ford
X. Qi;Z. Zheng;S. Boggs
S. A. Boggs;N. Fujimoto
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