Title :
Are Gas Discharges Capable of Generating Maser Radiation?:—Part 2
Author :
Kekez, Mladen M.
Author_Institution :
High-Energy Freq. Tesla Inc., Ottawa, ON, Canada
Abstract :
Microwave radiation produced by the sliding (spark channel) discharges in the small gaps under the action of high (>MV/cm) electric field over the dielectric (plexiglass) substrates are studied in hydrogen/argon mixtures. Under certain condition, it is observed that the frequency of the radiation in the resonant cavity is 1.420 GHz. This frequency is related to the intrinsic property of the hydrogen atoms and corresponds to the radiation produced by the atomic hydrogen maser. Few examples how the resonant cavity affects the radiation produced by the quantum states of various bands is presented. This paper suggests why the super radiance is sometimes observed. Effect of the microwave radiation on the security of the electronic infrastructure is also mentioned.
Keywords :
argon; corona; gas mixtures; hydrogen; masers; sparks; superradiance; H2-Ar; atomic hydrogen maser; dielectric substrates; electric field; electronic infrastructure security; frequency 1.420 GHz; gas discharges; hydrogen atoms; hydrogen-argon mixtures; maser radiation; microwave radiation effect; quantum states; radiation frequency; resonant cavity; sliding discharges; superradiance; Argon; Atomic clocks; Cavity resonators; Discharges (electric); Electrodes; Hydrogen; Masers; Gliding (spark channel) discharges and coronas; maser generations in hydrogen/argon mixtures; maser generations in hydrogen/argon mixtures.;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2014.2361097
