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One Second After the Big Bang

<!--HTML-->A new experiment called PTOLEMY (Princeton Tritium Observatory for Light, Early-Universe, Massive-Neutrino Yield) is under development at the Princeton Plasma Physics Laboratory with the goal of challenging one of the most fundamental predictions of the Big Bang – the present-day ex...

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Autor principal: Tully, Chris
Lenguaje:eng
Publicado: 2014
Materias:
Acceso en línea:http://cds.cern.ch/record/1700075
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author Tully, Chris
author_facet Tully, Chris
author_sort Tully, Chris
collection CERN
description <!--HTML-->A new experiment called PTOLEMY (Princeton Tritium Observatory for Light, Early-Universe, Massive-Neutrino Yield) is under development at the Princeton Plasma Physics Laboratory with the goal of challenging one of the most fundamental predictions of the Big Bang – the present-day existence of relic neutrinos produced less than one second after the Big Bang. Using a gigantic graphene surface to hold 100 grams of a single-atomic layer of tritium, low noise antennas that sense the radio waves of individual electrons undergoing cyclotron motion, and a massive array of cryogenic sensors that sit at the transition between normal and superconducting states, the PTOLEMY project has the potential to challenge one of the most fundamental predictions of the Big Bang, to potentially uncover new interactions and properties of the neutrinos, and to search for the existence of a species of light dark matter known as sterile neutrinos.
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institution Organización Europea para la Investigación Nuclear
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spelling cern-17000752022-11-02T22:31:30Zhttp://cds.cern.ch/record/1700075engTully, ChrisOne Second After the Big BangOne Second After the Big BangEP Seminar<!--HTML-->A new experiment called PTOLEMY (Princeton Tritium Observatory for Light, Early-Universe, Massive-Neutrino Yield) is under development at the Princeton Plasma Physics Laboratory with the goal of challenging one of the most fundamental predictions of the Big Bang – the present-day existence of relic neutrinos produced less than one second after the Big Bang. Using a gigantic graphene surface to hold 100 grams of a single-atomic layer of tritium, low noise antennas that sense the radio waves of individual electrons undergoing cyclotron motion, and a massive array of cryogenic sensors that sit at the transition between normal and superconducting states, the PTOLEMY project has the potential to challenge one of the most fundamental predictions of the Big Bang, to potentially uncover new interactions and properties of the neutrinos, and to search for the existence of a species of light dark matter known as sterile neutrinos.oai:cds.cern.ch:17000752014
spellingShingle EP Seminar
Tully, Chris
One Second After the Big Bang
title One Second After the Big Bang
title_full One Second After the Big Bang
title_fullStr One Second After the Big Bang
title_full_unstemmed One Second After the Big Bang
title_short One Second After the Big Bang
title_sort one second after the big bang
topic EP Seminar
url http://cds.cern.ch/record/1700075
work_keys_str_mv AT tullychris onesecondafterthebigbang