Title :
Nuclear Radiation-Induced Atmospheric Air Breakdown in a Spark Gap
Author :
Liao, Shaolin ; Gopalsami, Nachappa ; Koehl, Eugene R. ; Elmer, Thomas W., II ; Heifetz, Alexander ; Chien, Hual-Te ; Raptis, Apostolos C.
Author_Institution :
Nucl. Eng. Div., Argonne Nat. Lab., Argonne, IL, USA
fDate :
4/1/2012 12:00:00 AM
Abstract :
We have investigated the effect of pre-ionization by a radioactive -ray source on the atmospheric air breakdown conditions in a high-voltage spark gap. A standoff millimeter-wave (mmW) system was used to monitor the breakdown properties. A decrease in breakdown threshold was observed with an increase of radiation dose. We attribute this to a space charge-controlled electron diffusion process in a cloud of radiation-induced ion species of both polarities. The space charge-dependent diffusion coefficient was determined from the measurement data. In addition, we found that the breakdown process shows random spikes with Poisson-like statistical feature. These findings portend the feasibility of remote detection of nuclear radiation using high-power mmWs.
Keywords :
Poisson equation; plasma transport processes; plasma-beam interactions; radioactive sources; space charge; spark gaps; 137Cs; Poisson-like statistical feature; breakdown threshold; high-voltage spark gap; nuclear radiation-induced atmospheric air breakdown; preionization; radiation-induced ion species; radioactive γ-ray source; radioactive-ray source; space charge-controlled electron diffusion coefficient process; standoff millimeter-wave system; Educational institutions; Masers; Physics; Sensors; Sparks; Air breakdown; breakdown voltage; millimeter wave (mmW); nuclear radiation; spark gap;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2012.2187343
