#PhysicsNEWS
#Phosphine
#Superconductivity
➖@Physics_Revives➖
Uncovering the superconducting phosphine: P2H4 and P4H6
High-Tc superconductors have become a hot topic in physics since superconducting mercury was first reported more than a century ago. Dense hydrogen was predicted to metalize and become a superconductor at high pressure and room temperature. However, no widely accepted experimental work has been reported yet. In 2004, Ashcroft predicted hydrogen-dominant hydrides could become a high-Tc superconductor at high pressure, due to chemical precompression. Later, Drozdov et al. observed the superconductive transition of H2S at 203 K and 155 GPa, which broke the highest Tc record. Very recently, LaH6 was reported to show superconducting behavior at ~260K. Motivated by these efforts, extensive investigations on hydrides system have been reported.
➖@Physics_Revives➖
#Phosphine
#Superconductivity
➖@Physics_Revives➖
Uncovering the superconducting phosphine: P2H4 and P4H6
High-Tc superconductors have become a hot topic in physics since superconducting mercury was first reported more than a century ago. Dense hydrogen was predicted to metalize and become a superconductor at high pressure and room temperature. However, no widely accepted experimental work has been reported yet. In 2004, Ashcroft predicted hydrogen-dominant hydrides could become a high-Tc superconductor at high pressure, due to chemical precompression. Later, Drozdov et al. observed the superconductive transition of H2S at 203 K and 155 GPa, which broke the highest Tc record. Very recently, LaH6 was reported to show superconducting behavior at ~260K. Motivated by these efforts, extensive investigations on hydrides system have been reported.
➖@Physics_Revives➖
phys.org
Uncovering the superconducting phosphine: P2H4 and P4H6
High-Tc superconductors have become a hot topic in physics since superconducting mercury was first reported more than a century ago. Dense hydrogen was predicted to metalize and become a superconductor ...
#NaturePhysics
#Superconductivity
➖@Physics_Revives➖
Chiral topological superconductivity arising from the interplay of geometric phase and electron correlation
➖@Physics_Revives➖
#Superconductivity
➖@Physics_Revives➖
Chiral topological superconductivity arising from the interplay of geometric phase and electron correlation
➖@Physics_Revives➖
Nature Physics
Chiral topological superconductivity arising from the interplay of geometric phase and electron correlation
Renormalization group calculations incorporate band structure and interaction effects on an equal footing. Applying this methodology to Ge-doped Pb3Bi shows that this material is a chiral topological superconductor and hosts Majorana fermions.
#PhysicsNEWS
#Quantum
#Superconductivity
➖@Physics_Revives➖
Researchers develop superconducting quantum refrigerator
Imagine a refrigerator so cold it could turn atoms into their quantum states, giving them unique properties that defy the rules of classical physics.
➖@Physics_Revives➖
#Quantum
#Superconductivity
➖@Physics_Revives➖
Researchers develop superconducting quantum refrigerator
Imagine a refrigerator so cold it could turn atoms into their quantum states, giving them unique properties that defy the rules of classical physics.
➖@Physics_Revives➖
phys.org
Researchers develop superconducting quantum refrigerator
Imagine a refrigerator so cold it could turn atoms into their quantum states, giving them unique properties that defy the rules of classical physics.
#PhysicsNEWS
#Graphene
#Superconductivity
#2Dmaterials
➖@Physics_Revives➖
New study explains why superconductivity takes place in graphene
Graphene, a single sheet of carbon atoms, has many extreme electrical and mechanical properties. Two years ago, researchers showed how two sheets laid on top of each other and twisted at just the right angle can become superconducting, so that the material loses its electrical resistivity. New work explains why this superconductivity happens in a surprisingly high temperature.
➖@Physics_Revives➖
#Graphene
#Superconductivity
#2Dmaterials
➖@Physics_Revives➖
New study explains why superconductivity takes place in graphene
Graphene, a single sheet of carbon atoms, has many extreme electrical and mechanical properties. Two years ago, researchers showed how two sheets laid on top of each other and twisted at just the right angle can become superconducting, so that the material loses its electrical resistivity. New work explains why this superconductivity happens in a surprisingly high temperature.
➖@Physics_Revives➖
phys.org
New study explains why superconductivity takes place in graphene
Graphene, a single sheet of carbon atoms, has many extreme electrical and mechanical properties. Two years ago, researchers showed how two sheets laid on top of each other and twisted at just the right ...
#PhysicsNEWS
#Superconductivity
➖@Phytimes➖
Layer-cake 2-D superconductivity: Developing clean 2-D superconductivity in a bulk van der Waals superlattice
Materials science has had a profound historical impact on humanity since the advent of the Iron and Bronze ages. Presently, materials scientists are intrigued by a class of materials known as quantum materials, whose electronic or magnetic behavior cannot be explained by classical physics. Discoveries in the field of quantum materials are followed by a surge of research to uncover new physics or quantum information in science. In a new report now published on Science, A. Devarakonda and a team of scientists in physics at the Massachusetts Institute of Technology, Harvard University and the Riken Center for Emergent Matter Science in the U.S. and Japan reported the synthesis of a highly interesting novel quantum
➖@Phytimes➖
#Superconductivity
➖@Phytimes➖
Layer-cake 2-D superconductivity: Developing clean 2-D superconductivity in a bulk van der Waals superlattice
Materials science has had a profound historical impact on humanity since the advent of the Iron and Bronze ages. Presently, materials scientists are intrigued by a class of materials known as quantum materials, whose electronic or magnetic behavior cannot be explained by classical physics. Discoveries in the field of quantum materials are followed by a surge of research to uncover new physics or quantum information in science. In a new report now published on Science, A. Devarakonda and a team of scientists in physics at the Massachusetts Institute of Technology, Harvard University and the Riken Center for Emergent Matter Science in the U.S. and Japan reported the synthesis of a highly interesting novel quantum
➖@Phytimes➖
phys.org
Layer-cake 2-D superconductivity: Developing clean 2-D superconductivity in a bulk van der Waals superlattice
Materials science has had a profound historical impact on humanity since the advent of the Iron and Bronze ages. Presently, materials scientists are intrigued by a class of materials known as quantum ...