2015
DOI: 10.1088/1748-0221/10/08/p08002
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Scintillation efficiency of liquid argon in low energy neutron-argon scattering

Abstract: Experiments searching for weak interacting massive particles with noble gases such as liquid argon require very low detection thresholds for nuclear recoils. A determination of the scintillation efficiency is crucial to quantify the response of the detector at low energy. We report the results obtained with a small liquid argon cell using a monoenergetic neutron beam produced by a deuterium-deuterium fusion source. The light yield relative to electrons was measured for six argon recoil energies between 11 and … Show more

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Cited by 18 publications
(31 citation statements)
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“…The quenching model in PARIS acts by scaling E dep , and hence reducing the number of quanta, in Equations 5.4 and 5.5. The tension between the published results of nuclear recoil quenching in LAr, especially at low energies [38], suggests implementing the two most used models, the Lindhard [39] and Mei [40] Statistical fluctuations of S1 and S2 are introduced in PARIS only at the photon emission level. In particular, it is assumed that each exciton and each recombined pair can induce exactly one photon.…”
Section: The Paris Model For Scintillation and Ionization In Liquid Amentioning
confidence: 99%
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“…The quenching model in PARIS acts by scaling E dep , and hence reducing the number of quanta, in Equations 5.4 and 5.5. The tension between the published results of nuclear recoil quenching in LAr, especially at low energies [38], suggests implementing the two most used models, the Lindhard [39] and Mei [40] Statistical fluctuations of S1 and S2 are introduced in PARIS only at the photon emission level. In particular, it is assumed that each exciton and each recombined pair can induce exactly one photon.…”
Section: The Paris Model For Scintillation and Ionization In Liquid Amentioning
confidence: 99%
“…The quenching factor in liquid argon (often called L e f f or scintillation efficiency3) was measured by SCENE [47], MicroCLEAN [48], WARP [49], and W. Creus et al [50]. The four measurements agree within 2 σ with a value of approximately 0.28 at energies above 50 keV.…”
Section: The Quenching Of Nuclear Recoilsmentioning
confidence: 99%
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“…The W-value is about 20-30 eV for noble gases and hydrocarbons (see Table 3 for those used in the simulation), while the Fano factor lies between 0.15–0.2, i.e., the distribution of is not Poissonian. For computational reasons, we have combined the primary charge fluctuations with the amplification ones in a later step. Quenching factor   For the specific case of nuclear recoils, we have considered the conservative parametrization [70] given by where is the event energy expressed in keVee and the function is parametrized in terms of the atom number ( Z ) and mass ( A ) as This parametrization is more conservative than the Lindhard model for k 0.157 [71] and the value of 0.3 measured for scintillation light in liquid argon in [72] at 1 keVnr. Diffusion effects   Each primary electron is projected to the XY plane and the time line following two gaussian distributions, whose widths are calculated by the distance to the readouts and the gas parameters (drift velocity, longitudinal and transversal diffusion coefficients) generated by Magboltz [73]. The gas parameters are detailed in Table 3.…”
Section: Background Model Of Trex-dm At Lscmentioning
confidence: 99%
“…It is 100% anti-correlated noise that randomly moves counts from the late into the prompt region 15 without affecting the sum count.…”
Section: Appendix A42 Adding Window Noisementioning
confidence: 99%