Main objectives of BINGO
The BINGO project is a collaboration between CEA (Irfu and Iramis), IN2P3 (IJCLAB in Orsay, IP2I in Lyon), KINR in Kiev. The project is funded by ERC for 5 years starting from 2020.
Investigation of the Majorana nature of neutrinos
The aim of BINGO is the development of a technology capable of investigating the Majorana nature of neutrino with unprecedented precision, down to a sensitivity of a few meV to the Majorana neutrino mass.
Improvement of bolometric technique by technological innovations and new facilities
This performance will be achieved by exploiting the bolometric technique to study neutrinoless double-beta decay, combined with new challenging methods aiming at a reduction of the background by three orders of magnitude with respect to the state-of-the-art.
Implementation of the grounds for future experiments on neutrinoless double beta decay search
Implementation of next-generation bolometers..... BINGO will study and implement these methods, testing them in a demonstrator dubbed MINI-BINGO that will take place in Modane underground laboratory (LSM).
Solid bases of the BINGO technology
The opportunity offered by the bolometric technique
CUORE @ LNGS
CUPID-Mo @ LSM
Neganov-Luke @ LSM
Astropart.Phys. 35 (2012) 839-849
Astropart.Phys. 45 (2013) 13-22
arXiv:1909.02994
Eur.Phys.J. C77 (2017) no.1, 3
Phys.Rev. C97 (2018) no.3, 032501
Research
The Bingo project aims to develop technologies that will push the boundaries of double-beta disintegration without neutrinos.
The observation of this process would make it possible to lift a veil on the nature of neutrinos,
particles of the standard model describing the matter, energy and energy of the interactions.
Physics case and experimental context
The aim of BINGO is the development of a technology capable of investigating the Majorana nature of neutrino with unprecedented precision, down to a sensitivity of a few meV to the Majorana neutrino mass.
Bolometric techniques
BINGO will adopt an innovative version of the bolometric technique to study neutrinoless double-beta decay of 130_Te and 100_Mo contained in extremely radiopure TeO2 and Li2MoO4 crystals, respectively.
Experimental objectives and impact
The impact of BINGO in the search for neutrinoless double-beta decay will be at three levels ....
Members
This project is a collaboration between CEA (Irfu and Iramis), IN2P3 (IJCLAB in Orsay, IP2I in Lyon), KINR in Kiev
Members
This project is a collaboration between CEA (Irfu and Iramis), IN2P3 (IJCLAB in Orsay, IP2I in Lyon), KINR in Kiev.
Bingo Collaboration
PI : Claudia Nones From left to right : ....Hawraa Khalife, David Baudin,...Claudia Nones...Host intitution and institutes
News
Jobs
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Publications
Pub1
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Pub2
Journal, année, pages
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Pub3
Journal, année, pages
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Pub4
Journal, année, pages
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Pub5
Journal, année, pages
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Contact
Location:
Paris Saclay, 91191 Gif sur Yvette, France