Measurement of the liquid argon energy response to nuclear and   electronic recoils

P. Agnes; J. Dawson; S. De Cecco; A. Fan; G. Fiorillo; D. Franco; C.; Galbiati; C. Giganti; T. N. Johnson; G. Korga; D. Kryn; M. Lebois; A.; Mandarano; C. J. Martoff; A. Navrer-Agasson; E. Pantic; L. Qi; A. Razeto; A.; L. Renshaw; Q. Riffard; B. Rossi; C. Savarese; B. Schlitzer; Y. Suvorov; A.; Tonazzo; H. Wang; Y. Wang; A. W. Watson; J. N. Wilson

arXiv:1801.06653·physics.ins-det·June 27, 2018

Measurement of the liquid argon energy response to nuclear and electronic recoils

P. Agnes, J. Dawson, S. De Cecco, A. Fan, G. Fiorillo, D. Franco, C., Galbiati, C. Giganti, T. N. Johnson, G. Korga, D. Kryn, M. Lebois, A., Mandarano, C. J. Martoff, A. Navrer-Agasson, E. Pantic, L. Qi, A. Razeto, A., L. Renshaw, Q. Riffard, B. Rossi, C. Savarese, B. Schlitzer

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TL;DR

This study precisely measures liquid argon's scintillation response to nuclear and electronic recoils, improving models and reducing uncertainties in dark matter detection experiments.

Contribution

It provides high-precision measurements of scintillation efficiency and recombination probabilities in liquid argon, enhancing response models at low energies.

Findings

01

Measured nuclear recoil scintillation efficiency with high precision

02

Extracted ion-electron recombination probabilities across electric fields

03

Compared and constrained models of liquid argon response

Abstract

A liquid argon time projection chamber, constructed for the Argon Response to Ionization and Scintillation (ARIS) experiment, has been exposed to the highly collimated and quasi-monoenergetic LICORNE neutron beam at the Institute de Physique Nuclaire Orsay in order to study the scintillation response to nuclear and electronic recoils. An array of liquid scintillator detectors, arranged around the apparatus, tag scattered neutrons and select nuclear recoil energies in the [7, 120] keV energy range. The relative scintillation efficiency of nuclear recoils was measured to high precision at null field, and the ion-electron recombination probability was extracted for a range of applied electric fields. Single Compton scattered electrons, produced by gammas emitted from the de-excitation of $^{7}$ Li* in coincidence with the beam pulse, along with calibration gamma sources, are used to extract…

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