1981
DOI: 10.1016/0029-554x(81)90090-2
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Charge and light gain measurements in argon-nitrogen mixtures using a gas scintillation proportional counter

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Cited by 5 publications
(4 citation statements)
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“…62 The first continuum is dominant over the second continuum at high values of E / p, and the second continuum dominates at low E / p. Many PMTs used in GPSC have their peak response in the near UV ͑300− 380 nm͒ to short vis range. 59,60 The intensity of the second positive band has been found to ͑i͒ increase with increasing admixture partial pressure up to concentrations of Ϸ0.1% and then decrease with increasing admixture concentration and ͑ii͒ increase with decreasing p at constant admixture concentration. 46,56,60,63,64 The presence of a small concentration ͑Ϸ0.1% -4 % ͒ of N 2 in an atomic gas, such as Ar, quenches the continuum emissions, described above, and gives rise to corresponding emission lines between 300 and 420 nm that are referred to as the second positive band.…”
Section: B Gaseous Proportional Scintillationmentioning
confidence: 96%
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“…62 The first continuum is dominant over the second continuum at high values of E / p, and the second continuum dominates at low E / p. Many PMTs used in GPSC have their peak response in the near UV ͑300− 380 nm͒ to short vis range. 59,60 The intensity of the second positive band has been found to ͑i͒ increase with increasing admixture partial pressure up to concentrations of Ϸ0.1% and then decrease with increasing admixture concentration and ͑ii͒ increase with decreasing p at constant admixture concentration. 46,56,60,63,64 The presence of a small concentration ͑Ϸ0.1% -4 % ͒ of N 2 in an atomic gas, such as Ar, quenches the continuum emissions, described above, and gives rise to corresponding emission lines between 300 and 420 nm that are referred to as the second positive band.…”
Section: B Gaseous Proportional Scintillationmentioning
confidence: 96%
“…For example, if a swarm electron excites a gas molecule above a particular resonance level the difference between the energy imparted to the molecule by the electron and the resonance level will emit continuous radiation. 25,44,58 The detection of ionizing radiation using gaseous proportional scintillation detectors is normally performed ͑i͒ using noble gases due to their strong emission characteristics 45,60 and ͑ii͒ at reduced electric fields ͑E / p͒ less than the threshold for ionization/charge multiplication in order to reduce statistical fluctuations in photon detection, improving energy resolution and signal-to-noise ratios. 40,41,53 Although gaseous scintillation and radiative recombination mechanisms produce line spectra and continuous radiation in the UV, 54-56 vis, 56,57 and IR ͑Refs.…”
Section: B Gaseous Proportional Scintillationmentioning
confidence: 99%
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