#PhysicsNEWS #Magnetism #Quantum
➖@Physics_Revives➖
A quantum magnet with a topological twist
Taking their name from an intricate Japanese basket pattern, kagome magnets are thought to have electronic properties that could be valuable for future quantum devices and applications. Theories predict that some electrons in these materials have exotic, so-called topological behaviors and others behave somewhat like graphene, another material prized for its potential for new types of electronics.
➖@Physics_Revives➖
➖@Physics_Revives➖
A quantum magnet with a topological twist
Taking their name from an intricate Japanese basket pattern, kagome magnets are thought to have electronic properties that could be valuable for future quantum devices and applications. Theories predict that some electrons in these materials have exotic, so-called topological behaviors and others behave somewhat like graphene, another material prized for its potential for new types of electronics.
➖@Physics_Revives➖
phys.org
A quantum magnet with a topological twist
Taking their name from an intricate Japanese basket pattern, kagome magnets are thought to have electronic properties that could be valuable for future quantum devices and applications. Theories predict ...
#NaturePhysics #Quantum
➖@Physics_Revives➖
Quantum hardware simulating four-dimensional inelastic neutron scattering
Citation : doi:10.1038/s41567-019-0437-4
Inelastic neutron scattering is used to probe the spin dynamics of molecular nanomagnets, but extensive supporting computations make the technique challenging. Proof-of-principle experiments now show that quantum computers may solve these computations efficiently.
➖@Physics_Revives➖
➖@Physics_Revives➖
Quantum hardware simulating four-dimensional inelastic neutron scattering
Citation : doi:10.1038/s41567-019-0437-4
Inelastic neutron scattering is used to probe the spin dynamics of molecular nanomagnets, but extensive supporting computations make the technique challenging. Proof-of-principle experiments now show that quantum computers may solve these computations efficiently.
➖@Physics_Revives➖
Nature Physics
Quantum hardware simulating four-dimensional inelastic neutron scattering
Inelastic neutron scattering is used to probe the spin dynamics of molecular nanomagnets, but extensive supporting computations make the technique challenging. Proof-of-principle experiments now show that quantum computers may solve these computations efficiently.