Dr Kevin Thieme

A measurement of the mean electronic excitation energy of liquid xenon

The European Physical Journal C Springer Science and Business Media LLC 81:12 (2021) 1060

Authors:

Laura Baudis, Patricia Sanchez-Lucas, Kevin Thieme

Abstract:

AbstractDetectors using liquid xenon as target are widely deployed in rare event searches. Conclusions on the interacting particle rely on a precise reconstruction of the deposited energy which requires calibrations of the energy scale of the detector by means of radioactive sources. However, a microscopic calibration, i.e. the translation from the number of excitation quanta into deposited energy, also necessitates good knowledge of the energy required to produce single scintillation photons or ionisation electrons in liquid xenon. The sum of these excitation quanta is directly proportional to the deposited energy in the target. The proportionality constant is the mean excitation energy and is commonly known as W-value. Here we present a measurement of the W-value with electronic recoil interactions in a small dual-phase xenon time projection chamber with a hybrid (photomultiplier tube and silicon photomultipliers) photosensor configuration. Our result is based on calibrations at $$\mathcal {O}(1{-}10\,{\hbox {keV}})$$ O ( 1 - 10 keV ) with internal $${^{37}\hbox {Ar}}$$ 37 Ar and $${^{83\text {m}}\hbox {Kr}}$$ 83 m Kr sources and single electron events. We obtain a value of $$W={11.5}{} \, ^{+0.2}_{-0.3} \, \mathrm {(syst.)} \, \hbox {eV}$$ W = 11.5 - 0.3 + 0.2 ( syst . ) eV , with negligible statistical uncertainty, which is lower than previously measured at these energies. If further confirmed, our result will be relevant for modelling the absolute response of liquid xenon detectors to particle interactions.

The first dual-phase xenon TPC equipped with silicon photomultipliers and characterisation with $$^{37}\hbox {Ar}$$

The European Physical Journal C Springer Science and Business Media LLC 80:5 (2020) 477

Authors:

L Baudis, Y Biondi, M Galloway, F Girard, S Hochrein, S Reichard, P Sanchez-Lucas, K Thieme, J Wulf

Abstract:

AbstractFor the first time, a small dual-phase (liquid/gas) xenon time projection chamber was equipped with a top array of silicon photomultipliers for light and charge readout. Here we describe the instrument in detail, as well as the data processing and the event position reconstruction algorithms. We obtain a spatial resolution of $$\sim 1.5\,\text {mm}$$∼1.5mm in the horizontal plane. To characterise the detector performance, we show calibration data with internal $$^{83\text {m}}\hbox {Kr}$$83mKr and $$^{37}\hbox {Ar}$$37Ar sources, and we detail the production of the latter as well as its introduction into the system. We finally compare the observed light and charge yields down to electronic recoil energies of $$2.82\,\text {keV}$$2.82keV to predictions based on NEST v2.0.

Design and construction of Xenoscope — a full-scale vertical demonstrator for the DARWIN observatory

Journal of Instrumentation IOP Publishing 16:08 (2021) P08052-P08052

Authors:

L Baudis, Y Biondi, M Galloway, F Girard, A Manfredini, N McFadden, R Peres, P Sanchez-Lucas, K Thieme

Abstract:

Abstract The DARWIN observatory is a proposed next-generation experiment to search for particle dark matter and other rare interactions. It will operate a 50 t liquid xenon detector, with 40 t in the time projection chamber (TPC). To inform the final detector design and technical choices, a series of technological questions must first be addressed. Here we describe a full-scale demonstrator in the vertical dimension, Xenoscope, with the main goal of achieving electron drift over a 2.6 m distance, which is the scale of the DARWIN TPC. We have designed and constructed the facility infrastructure, including the cryostat, cryogenic and purification systems, the xenon storage and recuperation system, as well as the slow control system. We have also designed a xenon purity monitor and the TPC, with the fabrication of the former nearly complete. In a first commissioning run of the facility without an inner detector, we demonstrated the nominal operational reach of Xenoscope and benchmarked the components of the cryogenic and slow control systems, demonstrating reliable and continuous operation of all subsystems over 40 days. The infrastructure is thus ready for the integration of the purity monitor, followed by the TPC. Further applications of the facility include R&D on the high voltage feedthrough for DARWIN, measurements of electron cloud diffusion, as well as measurements of optical properties of liquid xenon. In the future, Xenoscope will be available as a test platform for the DARWIN collaboration to characterise new detector technologies.

Flow and thermal modelling of the argon volume in the DarkSide-20k TPC

Journal of Instrumentation IOP Publishing 20:06 (2025) P06046

Authors:

F Acerbi, P Adhikari, P Agnes, I Ahmad, S Albergo, IF Albuquerque, T Alexander, AK Alton, P Amaudruz, M Angiolilli, E Aprile, M Atzori Corona, DJ Auty, M Ave, IC Avetisov, O Azzolini, HO Back, Z Balmforth, A Barrado Olmedo, P Barrillon, G Batignani, P Bhowmick, M Bloem, S Blua

Abstract:

The DarkSide-20k dark matter experiment, currently under construction at LNGS, features a dual-phase time projection chamber (TPC) with a ∼ 50 t argon target from an underground well. At this scale, it is crucial to optimise the argon flow pattern for efficient target purification and for fast distribution of internal gaseous calibration sources with lifetimes of the order of hours. To this end, we have performed computational fluid dynamics simulations and heat transfer calculations. The residence time distribution shows that the detector is well-mixed on time-scales of the turnover time (∼ 40 d). Notably, simulations show that despite a two-order-of-magnitude difference between the turnover time and the half-life of 83mKr of 1.83 h, source atoms have the highest probability to reach the centre of the TPC 13 min after their injection, allowing for a homogeneous distribution before undergoing radioactive decay. We further analyse the thermal aspects of dual-phase operation and define the requirements for the formation of a stable gas pocket on top of the liquid. We find a best-estimate value for the heat transfer rate at the liquid-gas interface of 62 W with an upper limit of 144 W and a minimum gas pocket inlet temperature of 89 K to avoid condensation on the acrylic anode. This study also informs the placement of liquid inlets and outlets in the TPC. The presented techniques are widely applicable to other large-scale, noble-liquid detectors.

Benchmarking the design of the cryogenics system for the underground argon in DarkSide-20k

Journal of Instrumentation IOP Publishing 20:02 (2025) p02016

Authors:

F Acerbi, P Adhikari, P Agnes, I Ahmad, S Albergo, IFM Albuquerque, T Alexander, AK Alton, P Amaudruz, M Angiolilli, E Aprile, R Ardito, M Atzori Corona, DJ Auty, M Ave, IC Avetisov, O Azzolini, HO Back, Z Balmforth, A Barrado Olmedo, P Barrillon, G Batignani, P Bhowmick, S Blua, V Bocci, W Bonivento, B Bottino, MG Boulay, A Buchowicz, S Bussino, J Busto, M Cadeddu, M Cadoni, R Calabrese, V Camillo, A Caminata, N Canci, A Capra, M Caravati, M Cárdenas-Montes, N Cargioli, M Carlini, A Castellani, P Castello, P Cavalcante, S Cebrian, J Cela Ruiz, S Chashin, A Chepurnov, L Cifarelli, D Cintas, M Citterio, B Cleveland, Y Coadou, V Cocco, D Colaiuda, E Conde Vilda, L Consiglio, BS Costa, M Czubak, M D'Aniello, S D'Auria, MD Da Rocha Rolo, G Darbo, S Davini, S De Cecco, G De Guido, G Dellacasa, AV Derbin, A Devoto, F Di Capua, A Di Ludovico, L Di Noto, P Di Stefano, LK Dias, D Díaz Mairena, X Ding, C Dionisi, G Dolganov, F Dordei, V Dronik, A Elersich, E Ellingwood, T Erjavec, M Fernandez Diaz, A Ficorella, G Fiorillo, P Franchini, D Franco, H Frandini Gatti, E Frolov, F Gabriele, D Gahan, C Galbiati, G Galiński, G Gallina, G Gallus, M Garbini, P Garcia Abia, A Gawdzik, A Gendotti, A Ghisi, GK Giovanetti, V Goicoechea Casanueva, A Gola, L Grandi, G Grauso, G Grilli di Cortona, A Grobov, M Gromov, M Guerzoni, M Gulino, C Guo, BR Hackett, A Hallin, A Hamer, M Haranczyk, B Harrop, T Hessel, S Hill, S Horikawa, J Hu, F Hubaut, J Hucker, T Hugues, EV Hungerford, A Ianni, V Ippolito, A Jamil, C Jillings, S Jois, P Kachru, R Keloth, N Kemmerich, A Kemp, CL Kendziora, M Kimura, A Kish, K Kondo, G Korga, L Kotsiopoulou, S Koulosousas, A Kubankin, P Kunzé, M Kuss, M Kuźniak, M Kuzwa, M La Commara, M Lai, E Le Guirriec, E Leason, A Leoni, L Lidey, M Lissia, L Luzzi, O Lychagina, O Macfadyen, IN Machulin, S Manecki, I Manthos, L Mapelli, A Marasciulli, SM Mari, C Mariani, J Maricic, M Martinez, CJ Martoff, G Matteucci, K Mavrokoridis, AB McDonald, J Mclaughlin, S Merzi, A Messina, R Milincic, S Minutoli, A Mitra, A Moharana, S Moioli, J Monroe, E Moretti, M Morrocchi, T Mroz, VN Muratova, M Murphy, M Murra, C Muscas, P Musico, R Nania, M Nessi, G Nieradka, K Nikolopoulos, E Nikoloudaki, J Nowak, K Olchanski, A Oleinik, V Oleynikov, P Organtini, A Ortiz de Solórzano, M Pallavicini, L Pandola, E Pantic, E Paoloni, D Papi, G Pastuszak, G Paternoster, A Peck, PA Pegoraro, K Pelczar, LA Pellegrini, R Perez, F Perotti, V Pesudo, SI Piacentini, N Pino, G Plante, A Pocar, M Poehlmann, S Pordes, P Pralavorio, D Price, S Puglia, M Queiroga Bazetto, F Ragusa, Y Ramachers, A Ramirez, S Ravinthiran, M Razeti, AL Renshaw, M Rescigno, F Retiere, LP Rignanese, A Rivetti, A Roberts, C Roberts, G Rogers, L Romero, M Rossi, A Rubbia, D Rudik, M Sabia, P Salomone, O Samoylov, E Sandford, S Sanfilippo, D Santone, R Santorelli, EM Santos, C Savarese, E Scapparone, G Schillaci, FG Schuckman, G Scioli, DA Semenov, V Shalamova, A Sheshukov, M Simeone, P Skensved, MD Skorokhvatov, O Smirnov, T Smirnova, B Smith, A Sotnikov, F Spadoni, M Spangenberg, R Stefanizzi, A Steri, V Stornelli, S Stracka, S Sulis, A Sung, C Sunny, Y Suvorov, AM Szelc, O Taborda, R Tartaglia, A Taylor, J Taylor, S Tedesco, G Testera, K Thieme, A Thompson, TN Thorpe, A Tonazzo, S Torres-Lara, A Tricomi, EV Unzhakov, TJ Vallivilayil, M Van Uffelen, L Velazquez-Fernandez, T Viant, S Viel, A Vishneva, RB Vogelaar, J Vossebeld, B Vyas, M Wada, MB Walczak, H Wang, Y Wang, S Westerdale, L Williams, R Wojaczyński, M Wojcik, MM Wojcik, T Wright, X Xiao, Y Xie, C Yang, J Yin, A Zabihi, P Zakhary, A Zani, Y Zhang, T Zhu, A Zichichi, G Zuzel, MP Zykova, The DarkSide-20k collaboration