2020
DOI: 10.1088/1361-6463/abbb07
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Electron transport parameters in CO2: a comparison of two experimental systems and measured data

Abstract: Two experimental apparatuses used to obtain electron transport coefficients in gases are compared based on measurements in CO2 over a wide range of E/N-values. The operation principles of the two experimental systems as well as their data acquisition methods are different. One operates under the time of flight (TOF) principle, where the transport coefficients are obtained by fitting the theoretical form of the electron density of a swarm in an unbounded region, n(x, t), to the measured current at different val… Show more

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Cited by 15 publications
(24 citation statements)
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“…In Figure 11 are shown swarm data for a pure CO 2 gas calculated using the Biagi database [80,198] . Swarm parameters calculated using the online Boltzmann solver for a pure CO 2 gas using the Biagi database [80,198] and comparison with experimental swarm measurements [133,135, from Dutton [132], ETHZ [134], Heidelberg [154], LAPLACE [149] and UNAM [150] databases as a function of reduced electric field. The computed quantities are: (a) characteristic electron energy, (b) product of the gas number density and electron diffusion coefficient, (c) product of the gas number density and electron mobility coefficient, (d) Townsend coefficients.…”
Section: Lxcat Online Boltzmann Solver and Swarm Parameters Comparisonmentioning
confidence: 99%
“…In Figure 11 are shown swarm data for a pure CO 2 gas calculated using the Biagi database [80,198] . Swarm parameters calculated using the online Boltzmann solver for a pure CO 2 gas using the Biagi database [80,198] and comparison with experimental swarm measurements [133,135, from Dutton [132], ETHZ [134], Heidelberg [154], LAPLACE [149] and UNAM [150] databases as a function of reduced electric field. The computed quantities are: (a) characteristic electron energy, (b) product of the gas number density and electron diffusion coefficient, (c) product of the gas number density and electron mobility coefficient, (d) Townsend coefficients.…”
Section: Lxcat Online Boltzmann Solver and Swarm Parameters Comparisonmentioning
confidence: 99%
“…The swarm measurements were performed with a pulsed Townsend experiment (described in [18,19]) at low pressures-ranging from 200 Pa to 25.2 kPa and electrode distances between 11 and 29 mm. Assuming a Gaussian spatial distribution of the electron swarm (boundaries at infinity), the measured electron displacement current can be evaluated according to the analytical expression:…”
Section: Experimental Methods: Swarm and Breakdown Experimentsmentioning
confidence: 99%
“…The term in parenthesis accounts for the fraction of electrons absorbed at the anode (and no longer contributes to the current) which depends on the drift time T e (or bulk drift velocity w = d/T e with d the distance between electrodes) of the electron swarm between the electrodes and bulk longitudinal diffusion coefficient D L = 1 2 w 2 τ D . Details on the evaluation method can be found in [10,19]. The evaluated density-scaled diffusion coefficients show a pressure-dependence which is a consequence of neglecting in equation ( 1) the initial broadening of the swarm and of the limited bandwidth of the experimental system, detailed in [19].…”
Section: Experimental Methods: Swarm and Breakdown Experimentsmentioning
confidence: 99%
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“…The swarm measurements were performed in a pulsed Townsend (PT) setup which was described in detail in previous works [36,37]. Photoelectrons (⩾10 5 ) are extracted from a Mg/Pd coated photocathode using a 20 Hz-pulsed UV laser beam and released in the gaseous medium of interest subject to electric stress.…”
Section: Pulsed Townsend Experimentsmentioning
confidence: 99%