B. J. Udelson scite author profile

Laser induced stimulated emission for hydrogen atom density measurements in a hydrogen pulsed microwave dischargeMicrowave measurements of the properties of thin cross-sectional elements of a dc hydrogen discharge have been made. These measurements were accomplished by exposure of portions of the discharge in the gap between the cones of an S-band re-entrant cavity operating in the TMoio mode. The equipment and techniques for making the microwave measurements employing the re-entrant cavity are described. Measurements in the positive column of a dc hydrogen discharge showed the following results: Electron density increases with increasing tube current and also with increasing gas pressure in the pressure range measured (2 to 8-mm Hg). Electron collision frequency is approximately equal to 4.6X10 9 multiplied by the gas pressure in mm Hg, and is independent of tube current. When measurements were made in the negative glow region, several anomalous effects including a negative frequency shift were observed. These have been explained qualitatively as being caused by plasma resonance phenomena. The fact that these plasma resonance phenomena were also observed at a frequency of 8550 Mc demonstrates that the electron density in portions of the negative glow is at least 300 times greater than the density in the positive column.

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Surface wave delay line acoustooptic devices for signal processing

Berg

Lee

Casseday

et al. 1979

Appl. Opt.

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Surface-Wave Acousto-Optic Signal Processors

Berg¹,

Lee²,

Udelson³

1980

Opt. Eng

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B. J. Udelson

Effect of Microwave Signals Incident upon Different Regions of a dc Hydrogen Glow Discharge

Computer comparison of n ⁺ – p – p ⁺ and p ⁺ – n – n ⁺ junction silicon diodes for IMPATT oscillators

Microwave Measurements of the Properties of a dc Hydrogen Discharge

Surface wave delay line acoustooptic devices for signal processing

Surface-Wave Acousto-Optic Signal Processors

Contact Info

Product

Resources

About

B. J. Udelson

Effect of Microwave Signals Incident upon Different Regions of a dc Hydrogen Glow Discharge

Computer comparison of n + – p – p + and p + – n – n + junction silicon diodes for IMPATT oscillators

Microwave Measurements of the Properties of a dc Hydrogen Discharge

Surface wave delay line acoustooptic devices for signal processing

Surface-Wave Acousto-Optic Signal Processors

Contact Info

Product

Resources

About

Computer comparison of n ⁺ – p – p ⁺ and p ⁺ – n – n ⁺ junction silicon diodes for IMPATT oscillators