no code implementations • 23 Feb 2021 • John Arrington, Carlos Ayerbe Gayoso, Patrick C Barry, Vladimir Berdnikov, Daniele Binosi, Lei Chang, Markus Diefenthaler, Minghui Ding, Rolf Ent, Tobias Frederico, Yulia Furletova, Tim J Hobbs, Tanja Horn, Garth M Huber, Stephen JD Kay, Cynthia Keppel, Huy-Wen Lin, Cedric Mezrag, Rachel Montgomery, Ian L Pegg, Khepani Raya, Paul Reimer, David G Richards, Craig D Roberts, Jose Rodriguez-Quintero, Dmitry Romanov, Giovanni Salme, Nobuo Sato, Jorge Segovia, Petr Stepanov, Arun S Tadepalli, Richard L Trotta
How the bulk of the Universe's visible mass emerges and how it is manifest in the existence and properties of hadrons are profound questions that probe into the heart of strongly interacting matter.
Nuclear Experiment High Energy Physics - Phenomenology Nuclear Theory
1 code implementation • 31 Aug 2020 • Tjerk Benschop, Tobias A. de Jong, Petr Stepanov, Xiaobo Lu, Vincent Stalman, Sense Jan van der Molen, Dmitri K. Efetov, Milan P. Allan
We introduce a new method to continuously map inhomogeneities of a moir\'e lattice and apply it to large-area topographic images we measure on open-device twisted bilayer graphene (TBG).
Mesoscale and Nanoscale Physics Strongly Correlated Electrons
1 code implementation • 6 Feb 2020 • Simone Lisi, Xiaobo Lu, Tjerk Benschop, Tobias A. de Jong, Petr Stepanov, Jose R. Duran, Florian Margot, Irène Cucchi, Edoardo Cappelli, Andrew Hunter, Anna Tamai, Viktor Kandyba, Alessio Giampietri, Alexei Barinov, Johannes Jobst, Vincent Stalman, Maarten Leeuwenhoek, Kenji Watanabe, Takashi Taniguchi, Louk Rademaker, Sense Jan van der Molen, Milan Allan, Dmitri K. Efetov, Felix Baumberger
Transport experiments in twisted bilayer graphene revealed multiple superconducting domes separated by correlated insulating states.
Strongly Correlated Electrons Materials Science