Lack of Behavioral Effects of High-Peak-Power Microwave Pulses from an Axially Extracted Virtual Cathode Oscillator

Abstract

The development of high-power microwave (HPM) generators capable of producing extremely high-peak-power pulses for defense, commercial, and biomedical applications (1,2) has raised concern for the safety of the personnel operating such equipment. Occupational safety standards for radiofrequency exposure are based on the average-power density of irradiation and may lack applicability in situations where peak-power density is quite high while average-power density is relatively low. A battery of behavioral experiments was conducted to evaluate possible biological effects of high-power microwave (HPM) pulses generated by the Transformer Energized Megavolt Pulsed Output (TEMPO) microwave emitter, an axially extracted Virtual Cathode Oscillator (VIRCATOR). Free space electromagnetic energy in the frequency range 2.01 to 2.57 GHz (mean frequency = 2.11 + or - 0.09 SD) was radiated by conical horn in a TM01 mode. The overall pulse width was approximately 85 ns, with maximum power densities ranging as high as 24.11 kW/cm sq. per pulse (mean peak-power density = 10.79 KW/cm sq. + or - 0.35 SEM). The results suggest that peak power is not as important as average power in causing deleterious biological effects.

Document Details

Document Type

Technical Report

Publication Date

Nov 01, 1989

Accession Number

ADA220779

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