Abrupt Change in Neon Discharge Plasma Detected through Optogalvanic Effects

Xianming Han; Michael C. Blosser; Prabhakar Misra; Haridass Chandran

doi:10.1016/j.tsf.2011.12.088

Abrupt Change in Neon Discharge Plasma Detected through Optogalvanic Effects

Xianming Han, Michael C. Blosser, Prabhakar Misra, Haridass Chandran

Research output: Contribution to journal › Article › peer-review

Abstract

When a laser is tuned between two excited energy levels of a gas in a Direct Current discharge lamp, the discharge current will experience a temporary disturbance lasting tens or hundreds of microseconds known as the optogalvanic effect. We have carried out extensive studies of optogalvanic effects in neon discharge plasmas for transitions at 621.7 nm, 630.5 nm, 638.3 nm, 650.7 nm and 659.9 nm. A nonlinear least-squares Monte Carlo technique has been used to determine the relevant amplitude coefficients, decay rates and the instrumental time constant. We discovered an abrupt change in the neon discharge plasma at a discharge current of about 6 mA.

Original language	American English
Journal	Scholarship and Professional Work - LAS
Volume	521
DOIs	https://doi.org/10.1016/j.tsf.2011.12.088
State	Published - Jan 1 2012

Keywords

discharge plasma
optogalvanic effect
plasma diagnostics

Disciplines

Physics
Plasma and Beam Physics

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http://dx.doi.org/10.1016/j.tsf.2011.12.088

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title = "Abrupt Change in Neon Discharge Plasma Detected through Optogalvanic Effects",

abstract = " When a laser is tuned between two excited energy levels of a gas in a Direct Current discharge lamp, the discharge current will experience a temporary disturbance lasting tens or hundreds of microseconds known as the optogalvanic effect. We have carried out extensive studies of optogalvanic effects in neon discharge plasmas for transitions at 621.7 nm, 630.5 nm, 638.3 nm, 650.7 nm and 659.9 nm. A nonlinear least-squares Monte Carlo technique has been used to determine the relevant amplitude coefficients, decay rates and the instrumental time constant. We discovered an abrupt change in the neon discharge plasma at a discharge current of about 6 mA.",

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T1 - Abrupt Change in Neon Discharge Plasma Detected through Optogalvanic Effects

AU - Han, Xianming

AU - Blosser, Michael C.

AU - Misra, Prabhakar

AU - Chandran, Haridass

PY - 2012/1/1

Y1 - 2012/1/1

N2 - When a laser is tuned between two excited energy levels of a gas in a Direct Current discharge lamp, the discharge current will experience a temporary disturbance lasting tens or hundreds of microseconds known as the optogalvanic effect. We have carried out extensive studies of optogalvanic effects in neon discharge plasmas for transitions at 621.7 nm, 630.5 nm, 638.3 nm, 650.7 nm and 659.9 nm. A nonlinear least-squares Monte Carlo technique has been used to determine the relevant amplitude coefficients, decay rates and the instrumental time constant. We discovered an abrupt change in the neon discharge plasma at a discharge current of about 6 mA.

AB - When a laser is tuned between two excited energy levels of a gas in a Direct Current discharge lamp, the discharge current will experience a temporary disturbance lasting tens or hundreds of microseconds known as the optogalvanic effect. We have carried out extensive studies of optogalvanic effects in neon discharge plasmas for transitions at 621.7 nm, 630.5 nm, 638.3 nm, 650.7 nm and 659.9 nm. A nonlinear least-squares Monte Carlo technique has been used to determine the relevant amplitude coefficients, decay rates and the instrumental time constant. We discovered an abrupt change in the neon discharge plasma at a discharge current of about 6 mA.

KW - discharge plasma

KW - optogalvanic effect

KW - plasma diagnostics

UR - https://digitalcommons.butler.edu/facsch_papers/749

UR - http://dx.doi.org/10.1016/j.tsf.2011.12.088

U2 - 10.1016/j.tsf.2011.12.088

DO - 10.1016/j.tsf.2011.12.088

M3 - Article

VL - 521

JO - Scholarship and Professional Work - LAS

JF - Scholarship and Professional Work - LAS

ER -

Abrupt Change in Neon Discharge Plasma Detected through Optogalvanic Effects

Abstract

Keywords

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