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000000082 001__ 82
000000082 037__ $$aENY-ARTICLE-2008-073
000000082 041__ $$aeng
000000082 088__ $$aI07/1993/P-480
000000082 100__ $$aMazurek, B$$uWroclaw University of Technology, Poland
000000082 245__ $$aX-ray Emission Accompanying Cathode Microdischarge
000000082 260__ $$c1993-04-12
000000082 300__ $$a6p
000000082 500__ $$aIEEE Transactions on Electrical Insulation. 1993 vol. 28, No 4, pp. 488-493
000000082 520__ $$aElectrical discharge in vacuum is accompanied by X-ray radiation. Knowledge of the generation mechanism of radiation may lead to its practical use. The analysis of this phenomenon indicates that it is only at the discharge development phase until the moment of the anode plasma generation that the proper conditions for X-ray generation are satisfied. The intensity of radiation is dependent on the field current intensity on the cathode surface as well as on the value of the electron current supplying the anode. The anode current at the vacuum discharge development phase has a pulse character, and the pulse amplitude is dependent on the cathode plasma density. The radiation intensity may be increased by increasing the current amplitude, e.g. by artificial plasma generation in the trigger system.
000000082 6531_ $$aelectrical discharge in vacuum
000000082 6531_ $$aX-ray generation
000000082 6531_ $$aplasma generation
000000082 700__ $$aNowak, A$$uWroclaw University of Technology, Poland
000000082 700__ $$aTyman, A$$uWroclaw University of Technology, Poland
000000082 8560_ $$fzbigniew.leonowicz@pwr.wroc.pl
000000082 8564_ $$uhttp://zet10.ipee.pwr.wroc.pl/record/82/files/$$zAccess to Fulltext
000000082 909CO $$ooai:zet10.pwr.wroc.pl:82$$pglobal
000000082 980__ $$aARTICLE