Conveners
Thursday: THU-AM: Neutrinos
- Or Hen
Thursday: THU-PM - Nuclear Physics, Heavy Ions, BSM
- Bertrand Echenard (California Institute of Technology (US))
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Andrea Pocar (University of Massachusetts, Amherst)24/02/2022, 08:30
Borexino is a large solar neutrino detector that has operated at the Laboratori Nazionali del Gran Sasso between 2007 and October 4, 2021. Neutrinos are detected via their interaction with a 300-ton liquid scintillator target, purified to achieve unprecedented levels of radio-purity. Borexino has detected most of the components of the solar neutrino spectrum. In particular, it has measured...
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Justin Vandenbroucke24/02/2022, 08:45
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Sara Rebecca Gozzini24/02/2022, 09:00
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Matthias Danninger (Simon Fraser University (CA))24/02/2022, 09:15
Every time researchers have pushed the energy boundary in particle physics we have found something new about our Universe. Recently, IceCube has demonstrated that Neutrino Telescopes can use neutrinos from the cosmos as excellent tools to continue this exploration. The Pacific Ocean Neutrino Explorer (P-ONE) is a proposed initiative to construct one of the largest neutrino telescopes deep in...
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Eric Mayotte24/02/2022, 09:30
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Marcos Dracos (Centre National de la Recherche Scientifique (FR))24/02/2022, 09:45
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Daiki Hayakawa24/02/2022, 10:00
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Laura Marini24/02/2022, 10:30
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Laura Marini24/02/2022, 10:45
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Mehdi Shafiee24/02/2022, 11:00
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Brian Lenardo (Stanford University)24/02/2022, 11:15
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Lorna Nolan24/02/2022, 11:30
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Or Hen24/02/2022, 16:45
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Vytautas Vislavicius (University of Copenhagen (DK))24/02/2022, 17:45
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Ross Corliss24/02/2022, 18:00
Operated at the Relativistic Heavy Ion Collider at Brookhaven until beginning its recent upgrade into sPHENIX, the PHENIX experiment has collected a wealth of data from polarized proton collisions. Through a wide variety of observables, these data sets continue to offer insights into the spin structure of the proton: Transverse asymmetries probe the spin-momentum correlations of partons,...
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Stefania Gori (UC Santa Cruz)24/02/2022, 18:30
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Christopher Robyn Hayes (University of Michigan (US))24/02/2022, 19:30
The discovery of the Higgs boson with the mass of about 125 GeV completed the particle content predicted by the Standard Model. Even though this model is well established and consistent with many measurements, it is not capable to solely explain some observations. Many extensions of the Standard Model addressing such shortcomings introduce additional Higgs-like bosons which can be either...
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Gianantonio Pezzullo (Yale University)24/02/2022, 19:45
The Standard Model predicts several rare Higgs boson decay channels, among which are the decays to a Z boson and a photon, to a low-mass lepton pair and a photon, and to a meson and photon. The observation of some of these decays could open the possibility of studying the CP and coupling properties of the Higgs boson in a complementary way to other analyses. In addition,...
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