Add to ORKGIn this note the Lagrangian function for the electromagnetic field of a cavity resonator is found. And from this Lagrangian is deduced a perturbation formula which includes Müller's celebrated result as a special case. The same perturbation formula is derived also from the Boltzmann-Ehrenfest adiabatic theorem in a most simple manner
summary:The electromagnetic initial-boundary value problem for a cavity enclosed by perfectly conduc...
We study the eigenvalues of time-harmonic Maxwell's equations in a cavity upon changes in the electr...
The basic properties of continuous wave and pulsed microwave discharges and their application to las...
In this note the Lagrangian function for the electromagnetic field of a cavity resonator is found. A...
Techniques based on the perturbation of cavity resonators are commonly used to measure the permittiv...
If a cavity resonator has a "simple shape" and is filled with a homogeneous, isotropic medium, to ca...
Contains reports on three research projects.United States Department of the NavyLincoln Laboratory (...
International audienceue to the sensitivity of the Øeld distribution within a resonant cavity to the...
Abst rac t This report reviews the analysis used to extract the complex con-ductivity of a compound ...
Resonances determine the optical properties of an object, such as its transmittance, scattering cros...
The cavity (small) perturbation is a very suitable method for the measurement of the dielectric rela...
This report calculates the electromagnetic fields in a resonant cavity when a small ellipsoidal mate...
With the use of a highly symmetrical model, the heating of a spherical particulate by a predominantl...
The problem of the normal modes of electromagnetic oscillations in a spherical cavity resonator with...
We present an analysis of electromagnetic oscillations in a spherical conducting cavity filled conce...
summary:The electromagnetic initial-boundary value problem for a cavity enclosed by perfectly conduc...
We study the eigenvalues of time-harmonic Maxwell's equations in a cavity upon changes in the electr...
The basic properties of continuous wave and pulsed microwave discharges and their application to las...
In this note the Lagrangian function for the electromagnetic field of a cavity resonator is found. A...
Techniques based on the perturbation of cavity resonators are commonly used to measure the permittiv...
If a cavity resonator has a "simple shape" and is filled with a homogeneous, isotropic medium, to ca...
Contains reports on three research projects.United States Department of the NavyLincoln Laboratory (...
International audienceue to the sensitivity of the Øeld distribution within a resonant cavity to the...
Abst rac t This report reviews the analysis used to extract the complex con-ductivity of a compound ...
Resonances determine the optical properties of an object, such as its transmittance, scattering cros...
The cavity (small) perturbation is a very suitable method for the measurement of the dielectric rela...
This report calculates the electromagnetic fields in a resonant cavity when a small ellipsoidal mate...
With the use of a highly symmetrical model, the heating of a spherical particulate by a predominantl...
The problem of the normal modes of electromagnetic oscillations in a spherical cavity resonator with...
We present an analysis of electromagnetic oscillations in a spherical conducting cavity filled conce...
summary:The electromagnetic initial-boundary value problem for a cavity enclosed by perfectly conduc...
We study the eigenvalues of time-harmonic Maxwell's equations in a cavity upon changes in the electr...
The basic properties of continuous wave and pulsed microwave discharges and their application to las...