Particle theory

Spatially Homogeneous Universes with Late-Time Anisotropy

(2022)

Authors:

Andrei Constantin, Thomas R Harvey, Sebastian von Hausegger, Andre Lukas

Cold atoms in space: community workshop summary and proposed road-map

EPJ Quantum Technology Springer Nature 9:1 (2022) 30

Authors:

Iván Alonso, Cristiano Alpigiani, Brett Altschul, Henrique Araújo, Gianluigi Arduini, Jan Arlt, Leonardo Badurina, Antun Balaž, Satvika Bandarupally, Barry C Barish, Michele Barone, Michele Barsanti, Steven Bass, Angelo Bassi, Baptiste Battelier, Charles FA Baynham, Quentin Beaufils, Aleksandar Belić, Joel Bergé, Jose Bernabeu, Andrea Bertoldi, Robert Bingham, Sébastien Bize, Diego Blas, Kai Bongs, Philippe Bouyer, Carla Braitenberg, Christian Brand, Claus Braxmaier, Alexandre Bresson, Oliver Buchmueller, Dmitry Budker, Luís Bugalho, Sergey Burdin, Luigi Cacciapuoti, Simone Callegari, Xavier Calmet, Davide Calonico, Benjamin Canuel, Laurentiu-Ioan Caramete, Olivier Carraz, Donatella Cassettari, Pratik Chakraborty, Swapan Chattopadhyay, Upasna Chauhan, Xuzong Chen, Yu-Ao Chen, Maria Luisa Chiofalo, Jonathon Coleman, Robin Corgier, JP Cotter, A Michael Cruise, Yanou Cui, Gavin Davies, Albert De Roeck, Marcel Demarteau, Andrei Derevianko, Marco Di Clemente, Goran S Djordjevic, Sandro Donadi, Olivier Doré, Peter Dornan, Michael Doser, Giannis Drougakis, Jacob Dunningham, Sajan Easo, Joshua Eby, Gedminas Elertas, John Ellis, David Evans, Pandora Examilioti, Pavel Fadeev, Mattia Fanì, Farida Fassi, Marco Fattori, Michael A Fedderke, Daniel Felea, Chen-Hao Feng, Jorge Ferreras, Robert Flack, Victor V Flambaum, René Forsberg, Mark Fromhold, Naceur Gaaloul, Barry M Garraway, Maria Georgousi, Andrew Geraci, Kurt Gibble, Valerie Gibson, Patrick Gill, Gian F Giudice, Jon Goldwin, Oliver Gould, Oleg Grachov, Peter W Graham, Dario Grasso, Paul F Griffin, Christine Guerlin, Mustafa Gündoğan, Ratnesh K Gupta, Martin Haehnelt, Ekim T Hanımeli, Leonie Hawkins, Aurélien Hees, Victoria A Henderson, Waldemar Herr, Sven Herrmann, Thomas Hird, Richard Hobson, Vincent Hock, Jason M Hogan, Bodil Holst, Michael Holynski, Ulf Israelsson, Peter Jeglič, Philippe Jetzer, Gediminas Juzeliūnas, Rainer Kaltenbaek, Jernej F Kamenik, Alex Kehagias, Teodora Kirova, Marton Kiss-Toth, Sebastian Koke, Shimon Kolkowitz, Georgy Kornakov, Tim Kovachy, Markus Krutzik, Mukesh Kumar, Pradeep Kumar, Claus Lämmerzahl, Greg Landsberg, Christophe Le Poncin-Lafitte, David R Leibrandt, Thomas Lévèque, Marek Lewicki, Rui Li, Anna Lipniacka, Christian Lisdat, Mia Liu, JL Lopez-Gonzalez, Sina Loriani, Jorma Louko, Giuseppe Gaetano Luciano, Nathan Lundblad, Steve Maddox, MA Mahmoud, Azadeh Maleknejad, John March-Russell, Didier Massonnet, Christopher McCabe, Matthias Meister, Tadej Mežnaršič, Salvatore Micalizio, Federica Migliaccio, Peter Millington, Milan Milosevic, Jeremiah Mitchell, Gavin W Morley, Jürgen Müller, Eamonn Murphy, Özgür E Müstecaplıoğlu, Val O’Shea, Daniel KL Oi, Judith Olson, Debapriya Pal, Dimitris G Papazoglou, Elizabeth Pasatembou, Mauro Paternostro, Krzysztof Pawlowski, Emanuele Pelucchi, Franck Pereira dos Santos, Achim Peters, Igor Pikovski, Apostolos Pilaftsis, Alexandra Pinto, Marco Prevedelli, Vishnupriya Puthiya-Veettil, John Quenby, Johann Rafelski, Ernst M Rasel, Cornelis Ravensbergen, Mirko Reguzzoni, Andrea Richaud, Isabelle Riou, Markus Rothacher, Albert Roura, Andreas Ruschhaupt, Dylan O Sabulsky, Marianna Safronova, Ippocratis D Saltas, Leonardo Salvi, Muhammed Sameed, Pandey Saurabh, Stefan Schäffer, Stephan Schiller, Manuel Schilling, Vladimir Schkolnik, Dennis Schlippert, Piet O Schmidt, Harald Schnatz, Jean Schneider, Ulrich Schneider, Florian Schreck, Christian Schubert, Armin Shayeghi, Nathaniel Sherrill, Ian Shipsey, Carla Signorini, Rajeev Singh, Yeshpal Singh, Constantinos Skordis, Augusto Smerzi, Carlos F Sopuerta, Fiodor Sorrentino, Paraskevas Sphicas, Yevgeny V Stadnik, Petruta Stefanescu, Marco G Tarallo, Silvia Tentindo, Guglielmo M Tino, Jonathan N Tinsley, Vincenza Tornatore, Philipp Treutlein, Andrea Trombettoni, Yu-Dai Tsai, Philip Tuckey, Melissa A Uchida, Tristan Valenzuela, Mathias Van Den Bossche, Ville Vaskonen, Gunjan Verma, Flavio Vetrano, Christian Vogt, Wolf von Klitzing, Pierre Waller, Reinhold Walser, Eric Wille, Jason Williams, Patrick Windpassinger, Ulrich Wittrock, Peter Wolf, Marian Woltmann, Lisa Wörner, André Xuereb, Mohamed Yahia, Efe Yazgan, Nan Yu, Nassim Zahzam, Emmanuel Zambrini Cruzeiro, Mingsheng Zhan, Xinhao Zou, Jure Zupan, Erik Zupanič

Cosmic-Ray Composition analysis at IceCube using Graph Neural Networks

ArXiv 2211.17198 (2022)

Blast from the past II: constraints on heavy neutral leptons from the BEBC WA66 beam dump experiment

SciPost Physics SciPost 13:5 (2022) 118

Authors:

Ryan Barouki, Giacomo Marocco, Subir Sarkar

Abstract:

We revisit the search for heavy neutral leptons with the Big European Bubble Chamber in the 1982 proton beam dump experiment at CERN, focussing on those heavier than the kaon and mixing only with the tau neutrino, as these are far less constrained than their counterparts with smaller mass or other mixings. Recasting the previous search in terms of this model and including additional production and decay channels yields the strongest bounds to date, up to the tau mass. This applies also to our updated bounds on the mixing of heavy neutral leptons with the electron neutrino.

Catch-me-if-you-can: the overshoot problem and the weak/inflation hierarchy

Journal of High Energy Physics Springer 2022:11 (2022) 155

Authors:

Joseph Conlon, Filippo Revello

Abstract:

We study the overshoot problem in the context of post-inflationary string cosmology (in particular LVS). LVS cosmology features a long kination epoch as the volume modulus rolls down the exponential slope towards the final minimum, with an energy density that scales as m ⁴_s. It is a known fact that such a roll admits attractor tracker solutions, and if these are located the overshoot problem is solved. We show that, provided a sufficiently large hierarchy exists between the inflationary scale and the weak scale, this will always occur in LVS as initial seed radiation grows into the tracker solution. The consistency requirement of ending in a stable vacuum containing the weak hierarchy therefore gives a preference for high inflationary scales — an anthropic argument, if one likes, for a large inflation/weak hierarchy. We discuss various origins, both universal and model-dependent, of the initial seed radiation (or matter). One particularly interesting case is that of a fundamental string network arising from brane inflation — this may lead to an early epoch in which the universe energy density principally consists of gravitational waves, while an LVS fundamental string network survives into the present universe.