CUORE opens the door to tonne-scale cryogenics experiments

  title={CUORE opens the door to tonne-scale cryogenics experiments},
  author={Cuore Collaboration D. Q. Adams and C. Alduino and Franco Alessandria and K. Alfonso and Erica Andreotti and F. T. Iii Avignone and Oscar Azzolini and M Balata and Iulian Catalin Bandac and Thomas I. Banks and G. Bari and Marco Barucci and Jeffrey W. Beeman and Fabio Bellini and G. Benato and M. Beretta and Andrea Bersani and David Biare and M. Biassoni and F. Bragazzi and A. Branca and Chiara Brofferio and Adam Douglas Bryant and Alessandra Buccheri and C. Bucci and Cristina Bulfon and A. Camacho and J. Camilleri and Alessio Caminata and Alice Campani and L. Canonica and X. G. Cao and Simonetta Capelli and M. Capodiferro and Luigi Cappelli and Laura Cardani and M. Cariello and Paolo Carniti and M. Carrettoni and Nicola Casali and L. Cassina and E. Celi and Roberto Cereseto and G. Ceruti and Anna Chiarini and D. Chiesa and Nicholas Chott and Massimiliano Clemenza and Denis Conventi and S. Copello and Carlo Cosmelli and O. Cremonesi and Carlo Crescentini and R. J. Creswick and Jeremy S. Cushman and A. D’Addabbo and Damiano D'Aguanno and Ioan Dafinei and Vladimir I. Datskov and C. J. Davis and F. Del Corso and S. Dell’Oro and M. M. Deninno and Sergio Di Domizio and V. Domp{\`e} and Maria Laura di Vacri and Luca Di Paolo and Alexey Drobizhev and Larissa M. Ejzak and Riccardo Faccini and Deqing Fang and Guido Fantini and M. Faverzani and Evelyn Ferri and F Ferroni and Ettore Fiorini and M.A. Franceschi and Stuart J. Freedman and S. H. Fu and B. K. Fujikawa and Ren{\'e} Gaigher and Sabina Ghislandi and Andrea Giachero and Luca Gironi and A. Giuliani and Laura E. Gladstone and John J. Goett and Paolo Gorla and Claudio Gotti and Cristina Guandalini and Marco Guerzoni and M. Guetti and Thomas Dominic Gutierrez and E. E. Haller and K. Han and Erin V. Hansen and K M Heeger and Raul Hennings-Yeomans and K. P. Hickerson and R. G. Huang and H. Z. Huang and Marco Iannone and L. Ioannucci and Joseph Johnston and Richard W. Kadel and G. Keppel and Laura Kogler and Yu. G. Kolomensky and Alexander F. Leder and Carlo Ligi and K. E. Lim and R. Liu and L. Ma and Y. G. Ma and Cecilia Maiano and Matteo Maino and L. Marini and M. Martinez and C. Mart{\'i}nez Amaya and Reina Maruyama and D. W. Mayer and R. Mazza and Yuan Mei and N. Moggi and S. Morganti and Pablo Mosteiro and Serge Nagorny and T. Napolitano and Massimiliano Nastasi and J. A. Nikkel and Stefano Nisi and Claudia Nones and Eric B. Norman and Valentina Novati and Angelo Nucciotti and I. Nutini and T. O'donnell and Marco Olcese and Emiliano Olivieri and Filippo Orio and Donato Orlandi and Jonathan Loren Ouellet and Samantha Pagan and Carmine Elvezio Pagliarone and L. Pagnanini and Marco Pallavicini and Vincenzo Palmieri and Luca Pattavina and Maura Pavan and Marisa Pedretti and R. Pedrotta and Alessandro Pelosi and M. Perego and Gianluigi Pessina and Valerio Pettinacci and Gabriele Piperno and C Pira and Stefano Pirr{\`o} and Stefano Pozzi and E. Previtali and Andrei Puiu and S. Quitadamo and Florian Reindl and Franco Rimondi and Lara Risegari and Carl Rosenfeld and C. Rossi and Claudia Rusconi and Michinari Sakai and E. Sala and Chiara Salvioni and Samuele Sangiorgio and David J Santone and David Schaeffer and B. Schmidt and J. Schmidt and Nicholas D. Scielzo and Vivek Sharma and V. P. Singh and M. Sisti and A. R. Smith and Danielle Speller and F. Stivanello and P. T. Surukuchi and Luca Taffarello and L. Tatananni and M. Tenconi and Francesco Terranova and M. Tessaro and Claudia Tomei and Guglielmo Ventura and Kenny Vetter and Marco Vignati and Sachinthya Wagaarachchi and J. G. Wallig and B. S. Wang and H. W. Wang and Bradford Welliver and J. Wilson and K. Wilson and Lindley Winslow and T. S. Wise and L. Zanotti and C. Zarra and G. Zhang and Brian Xiaoyu Zhu and Sergio Zimmermann and S. Zhou J. Zucchelli},
  journal={Progress in Particle and Nuclear Physics},

Search for Majorana neutrinos exploiting millikelvin cryogenics with CUORE

The possibility that neutrinos may be their own antiparticles, unique among the known fundamental particles, arises from the symmetric theory of fermions proposed by Ettore Majorana in 19371. Given

Bolometric Double Beta Decay Experiments: Review and Prospects

The history and recent developments on cryogenic bolometers for neutrinoless double beta decay (0ν2β) searches are reviewed, with a focus on the different types of radioactive background and the measures put in place to mitigate them.

Cryogenic Calorimetric Signal Readout with 180nm CMOS at 20 mK

We present a demonstration of readout of physical cryogenic calorimetric signals from 20 mK with a two-stage amplifier using 180 nm CMOS technology placed at 20 mK and 700 mK. We observe a number of

Expected sensitivity to 128Te neutrinoless double beta decay with the CUORE TeO2 cryogenic bolometers

The CUORE experiment is a ton-scale array of TeO2\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy}

Optimization of the first CUPID detector module

CUPID will be a next generation experiment searching for the neutrinoless double β\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb}



The CUORE cryostat: An infrastructure for rare event searches at millikelvin temperatures

The CUORE Fast Cooling System

The Cryogenic Underground Observatory for Rare Events (CUORE) is a Ton-scale Neutrino-less Double Beta Decay experiment that uses 998 TeO2 crystal bolometers that need to be operated at a baseline

Vibrational and thermal noise reduction for cryogenic detectors

Advances in Bolometer Technology for Fundamental Physics

In the last decade, cryogenic bolometers have provided increasingly improved resolution and sensitivity in particle and radiation detectors. Thermal particle detectors have proven their outstanding

Cryogenic Detectors

  • K. Pretzl
  • Physics
    Particle Physics Reference Library
  • 2020
Most calorimeters used in high energy physics measure the energy loss of a particle in form of ionization (free charges) or scintillation light. However, a large fraction of the deposited energy in

Low energy analysis techniques for CUORE

CUORE is a tonne-scale cryogenic detector operating at the Laboratori Nazionali del Gran Sasso (LNGS) that uses tellurium dioxide bolometers to search for neutrinoless double-beta decay of

Preparing for science run 1 of MiniGRAIL

We report on the eighth cryogenic run of MiniGRAIL, which is planned to be the first science run. Three new capacitive transducers were mounted on the sphere, all coupled to superconducting

Advances in Cryogenic Engineering

History.- The Cryogenic Engineering Conference: 1954-1984.- Resource Availability.- Helium Prospects for the Future: Is There a Crisis?.- The Outlook for U.S. LNG Imports.- Applications of