Carbon nanostructures offer exciting new possibilities in the detection of light dark matter. A darkmatter particle with mass between 1 MeV and 1 GeV scattering off an electron in the carbon wouldtransfer sufficient energy to extract the electron from the lattice. In 2D materials, such as grapheneor carbon nanotubes, these electrons would be released directly into the vacuum, avoiding theirre-absorption in the medium. We present two novel detector concepts: a ’Graphene-FET’ design,based on graphene sheets, developed at Princeton University; and a ’Dark-PMT’ based on alignedcarbon nanotubes, developed in University of Rome Sapienza. We discuss their light dark matterdiscovery potential, the status of the RD, and the recent commissioning of a state-of-the-art carbonnanotube growing facility in Rome.
Carbon nanostructures for directional light dark matter detection / Apponi, Alice; Cavoto, Gianluca; Mariani, Carlo; Pandolfi, Francesco; Rago, Ilaria; Ruocco, Alessandro; Tully, Christopher; Zhao, Fang. - In: POS PROCEEDINGS OF SCIENCE. - ISSN 1824-8039. - 390:(2021), pp. 1-7. (Intervento presentato al convegno 40th International Conference on High Energy physics - ICHEP20 tenutosi a Prague, Czech Republic (virtual meeting)) [10.22323/1.390.0648].
Carbon nanostructures for directional light dark matter detection
Apponi, AliceMembro del Collaboration Group
;Cavoto, GianlucaMembro del Collaboration Group
;Mariani, CarloMembro del Collaboration Group
;Rago, IlariaMembro del Collaboration Group
;
2021
Abstract
Carbon nanostructures offer exciting new possibilities in the detection of light dark matter. A darkmatter particle with mass between 1 MeV and 1 GeV scattering off an electron in the carbon wouldtransfer sufficient energy to extract the electron from the lattice. In 2D materials, such as grapheneor carbon nanotubes, these electrons would be released directly into the vacuum, avoiding theirre-absorption in the medium. We present two novel detector concepts: a ’Graphene-FET’ design,based on graphene sheets, developed at Princeton University; and a ’Dark-PMT’ based on alignedcarbon nanotubes, developed in University of Rome Sapienza. We discuss their light dark matterdiscovery potential, the status of the RD, and the recent commissioning of a state-of-the-art carbonnanotube growing facility in Rome.| File | Dimensione | Formato | |
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