Scientists have found that staple-shaped particles can tangle together to create a material that is both strong and flexible. Unlike conventional materials, these particles can be locked into a sturdy ...
Florida State University physicists are part of a team that has discovered unusual superconducting states in parts of graphene, with the potential to drive unexpected quantum technologies. Assistant ...
An international team whose research was coordinated by Osaka Metropolitan University (OMU) has reported the survival of metallic behavior in the strongly correlated molecular material ytterbium ...
Soft matter is a truly interdisciplinary field of study encompassing an ever broadening array of subjects, ranging from elasticity, complex fluids, and metamaterials, to physics of living matter and ...
Spain can rapidly expand renewable energy, but the study shows this is only sustainable if overall material and energy demand is reduced Green energy and the economy illustration (Courtesy: ...
Theoretical physics is the development of mathematical formalisms and computational protocols for describing all aspects of objects found in the world around us and their interaction. This can involve ...
Living systems exhibit remarkable self-organization and dynamics at all length scales and requires matter that is both active and adaptable. Within a cell, biomolecules actively convert energy to ...
The fractional quantum anomalous Hall effect serves as the defining experimental manifestation of fractional Chern insulators at zero magnetic field. This Perspective surveys its realization in moiré ...
Casting a student feature-length film that explores the trends of looksmaxxing and blackpill. Filmmaker states: "I am not promoting the nihilistic ideas that 'looks are everything,' but rather more ...
She is someone the main character, Henry, is initially drawn to but feels too insecure to approach because of his damaged self-esteem from his constant blackpill consumption, as well as the fact that ...
The reason we slip and slide on ice—a phenomenon central to figure skating, curling and other Winter Olympic events—is a centuries-old physics mystery that may have finally been cracked ...