Publications Details

Spectroscopic investigation of electron-beam-induced excitation and ionization of air [Abstract]

Jackson, Stuart L.; Hinshelwood, David D.; Kaiser, Eric R.; Swanekamp, Stephen B.; Richardson, Andrew S.; Schumer, Joseph W.; Johnson, Michael J.; Foster, John E.; Durot, Christopher J.

Time-dependent visible and near-ultraviolet emission spectroscopy was used to track the presence of excited and ionized states induced as an electron beam transited a cavity filled with air at low pressures. An electron beam was produced in vacuum using a Febetron pulsed-power generator modified to produce a peak voltage of 100 kV, a peak current of 4.5 kA, and a pulse width of 100 ns. The beam electrons then passed through thin anode and pressure foils and transited a cavity filled with dry air at either 0.1 Torr or 1 Torr, exciting and ionizing the air along the way. The spectral measurements were combined with information from electrical, interferometric, and imaging diagnostics to reveal different ionization dynamics for the two cases under study.