Science And Technology In Deep Underground Laboratories

Editorial

07 November 2024

Editorial: Science and technology in deep underground laboratories

Aldo Ianni

Carlos Peña Garay

Jeter Hall

and

Sean M. Paling

583 views

0 citations

Editors

Aldo Ianni

Gran Sasso National Laboratory (INFN)

Sean M Paling

Science & Technologies Facilities Council, United Kingdom Research and Innovation

Carlos Peña Garay

Laboratorio Subterráneo de Canfranc

Jeter Hall

SNOLAB

Impact

Original Research

10 June 2024

Radioassay of the materials for AMoRE-II experiment

A. Agrawal

, 107 more and

Q. Yue

The AMoRE-II experiment will search for the 0νββ decay of ¹⁰⁰Mo nuclei using molybdate crystal scintillators, operating at milli-Kelvin (mK) temperatures, with a total of 80 kg of ¹⁰⁰Mo. The background goal for the experiment is 10^–4 counts/keV/kg/year in the region of interest around the 0νββ decay Q-value of 3,034 keV. To achieve this level, the rate of background signals arising from emissions produced by decays of radioactive impurities in the detector and shielding materials must be strictly controlled. To do this, concentrations of such impurities are measured and are controlled through materials selection and purification. In this paper, we describe the design and the construction materials used to build the AMoRE-II detector and shielding system, including active and passive shielding, the cryostat, and the detector holders and instrumentation, and we report on measurements of radioactive impurities within candidate and selected materials.

3,541 views

5 citations

Review

14 August 2024

NUOVA OFFICINA ASSERGI: a novel infrastructure for the production of cryogenic and radiopure Si-based photodetectors

L. Consiglio

, 6 more and

R. Tartaglia

795 views

0 citations

Brief Research Report

02 April 2024

Construction of Yemilab

K. S. Park

, 8 more and

S. B. Kim

1,533 views

8 citations

Perspective

26 March 2024

Hyper-Kamiokande construction status and prospects

Ko Abe

and

Hide-Kazu Tanaka

3,042 views

4 citations

The Gran Sasso underground laboratory and its evacuation assembly points.

Brief Research Report

08 March 2024

An adaptive evacuation system for the Gran Sasso underground laboratory

Paolo Cavalcante

and

Gabriele Bucciarelli

1,755 views

0 citations

(A) Photograph of the above ground biology laboratory containing some of the equipment described. (B) Underground Biology Laboratory, as a replica of the external laboratory, except for a flow cytometer instrument, which is only located in this location.

Perspective

24 April 2024

Canfranc biology platform: exploring life in cosmic silence

Rebecca Hernández-Antolín

, 1 more and

Carlos Peña-Garay

1,107 views

1 citations

Original Research

28 May 2024

Indirect search of heavy neutral leptons using the DUNE near detector

S. Carbajal

and

A. M. Gago

959 views

0 citations

Alt Text Lakeside. The geography of the nearest water bodies near the Pyhäsalmi Mine. The surface level of Lake Pyhäjärvi varies by less than a meter as it has been regulated. Similarly, Lake Komujärvi, which flows into Lake Pyhäjärvi, has minor water level variations—the analysis and figure were created by the fourth author.

Review

18 January 2024

Callio lab: an underground and above ground,laboratory—overview and prospects for high energy and applied physics

Jari Joutsenvaara

, 2 more and

Ossi Kotavaara

1,472 views

0 citations

Mural by William Morin in the SNOLAB lobby. The themes include neutrinos, the stars, the northern nights, the local forest, the medicine wheel, strawberry teachings, and Anishinaabek names for these concepts. More information can be found in Section 2.5.

Perspective

12 January 2024

Enhancing equity, diversity, and inclusion in physics: perspectives from North American underground laboratories

Erica Caden

, 1 more and

Rochelle Zens

1,694 views

0 citations

Screen-shot of the main slow-control webpage. In the top half are the fridge monitoring panel (left) and the panel for the monitoring and control of the suspension system (right). Active elements in the fridge monitoring panel (pumps, valves) are green, while inactive ones are red. The gamma calibration source is controlled through the first horizontal panel in the lower half; it indicates that the source is located inside the shielding box (”−10 cm”; 0 is just outside the lead shielding and level with the top rim of the lower part of the drywell). The lower horizontal bar controls the Peltier cooler. The cyan-colored banner above the panels shows various facility parameters (including lab air temperature and pressure). The blue top-banner allows the user to choose the alternate tabs for plotting and data downloading, control of the fridge thermometers and heaters, and an interface to easily check the status of (and if necessary restart) the servers for the suspension and calibration systems, the Peltier cooler and the compressor monitoring.

Technology and Code

11 January 2024

CUTE: A Cryogenic Underground TEst facility at SNOLAB

Philippe Camus

, 15 more and

Ryan Underwood

3,141 views

2 citations

Pulse shape discrimination versus reconstructed energy for several SiPM over-voltages and different energy estimators. The blue–gold heatmaps correspond to 3×1010 electron-like events uniformly distributed between 5 and 35 keVee. The gray-shaded bands correspond to approximately 1×109 nuclear recoil events: 50% (black) and 90% (green) quantiles are shown. The red ribbons identify the dark matter acceptance area with a leakage of about 10 electron-like events.

Original Research

03 January 2024

Challenges for dark matter direct search with SiPMs

Alessandro Razeto

and

Nicola Rossi

1,914 views

2 citations

Original Research

15 December 2023

Sanford Underground Research Facility’s approach to school education, community activities, and public outreach

Markus Horn

and

Erin Lorraine Woodward

1,809 views

2 citations

Original Research

28 November 2023

Sub-background radiation exposure at the LNGS underground laboratory: dosimetric characterization of the external and underground facilities

Marco Ampollini

, 18 more and

Claudia Tomei

1,494 views

0 citations

Review

14 December 2023

Radioassay facilities at the STFC Boulby Underground Laboratory

Paul R. Scovell

, 3 more and

James Dobson

1,061 views

1 citations

Schematic layout of the Bellotti Ion Beam Facility at the LNGS underground site.

Perspective

09 November 2023

The deep underground Bellotti Ion Beam Facility—status and perspectives

Matthias Junker

, 7 more and

Valentino Rigato

For more than three decades, accelerators are in use in the underground laboratories of the Laboratori Nazionali del Gran Sasso (LNGS), located in central Italy. The LUNA Collaboration has exploited the potential of the site’s low cosmic ray background to achieve important and often groundbreaking results in the field of nuclear astrophysics. This long success story stimulated the installation of accelerators in deep underground laboratories also in other countries, including the USA and China. Recently, LNGS took a major step forward with the activation of the Bellotti Ion Beam Facility, which will provide ion beams to the scientific community for research not only in nuclear astrophysics, but in all fields that can benefit from the low cosmic ray background conditions of the underground site.

1,267 views

5 citations

Panel 1—Representative image of human keratinocytes stained with MN cGAS positive. The green color represents cGAS protein, in blue DNA and red the nuclear envelope. Panel 2—Image of AP HL60 (A), Np (B), and Mp (C). HL60 cells grow in suspension whereas Np and Mp grow in monolayer.

Perspective

10 November 2023

Overview of DISCOVER22 experiment in the framework of INFN-LNGS Cosmic Silence activity: challenges and improvements in underground radiobiology

Patrizia Morciano

, 25 more and

Antonella Sgura

1,509 views

1 citations

Perspective

17 October 2023

Battery Earth: using the subsurface at Boulby underground laboratory to investigate energy storage technologies

Katherine A. Daniels

, 5 more and

Sean M. Paling

Renewable energy provides a low-carbon alternative to power generation in the UK. However, the resultant supply varies on daily, weekly and seasonal cycles, such that for green energies to be fully exploited new grid-scale energy storage systems must be implemented. Two pilot facilities in Germany and the United States have demonstrated the potential of the Earth as a battery to store compressed air, using off-peak surplus energy. Natural accumulations of salt (halite deposits) in the UK represent a large and untapped natural storage reservoir for compressed air with the ability to provide instantaneous green energy to meet peak demand. To realise the potential of this emerging technology, a detailed knowledge of the relationship between mechanics, chemistry and geological properties is required to optimise cavern design, storage potential and economic feasibility. The variable stresses imposed on the rock matrix by gas storage, combined with the cyclic nature of cavern pressurisation are barriers to deployment that need to be addressed to enable large-scale adoption of schemes. Well-designed field experiments are a lynchpin for advancing research in this area, especially when supported by state-of-the-art characterisation and modelling techniques. The research facility at STFC’s Boulby Underground Laboratory presents the ideal location to tackle these fundamental issues to optimise “Battery Earth”.

2,771 views

3 citations

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