#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 ...
#PhysicsNEWS
#Magnetism
➖@Physics_Revives➖
Physicists create stable, strongly magnetized plasma jet in laboratory
When you peer into the night sky, much of what you see is plasma, a soupy amalgam of ultra-hot atomic particles. Studying plasma in the stars and various forms in outer space requires a telescope, but scientists can recreate it in the laboratory to examine it more closely.
➖@Physics_Revives➖
#Magnetism
➖@Physics_Revives➖
Physicists create stable, strongly magnetized plasma jet in laboratory
When you peer into the night sky, much of what you see is plasma, a soupy amalgam of ultra-hot atomic particles. Studying plasma in the stars and various forms in outer space requires a telescope, but scientists can recreate it in the laboratory to examine it more closely.
➖@Physics_Revives➖
phys.org
Physicists create stable, strongly magnetized plasma jet in laboratory
When you peer into the night sky, much of what you see is plasma, a soupy amalgam of ultra-hot atomic particles. Studying plasma in the stars and various forms in outer space requires a telescope, but ...
#PhysicsNEWS
#MAGNETISM
➖@Physics_Revives➖
Small magnets reveal big secrets
An international research team led by a physicist at the University of California, Riverside, has identified a microscopic process of electron spin dynamics in nanoparticles that could impact the design of applications in medicine, quantum computation, and spintronics.
➖@Physics_Revives➖
#MAGNETISM
➖@Physics_Revives➖
Small magnets reveal big secrets
An international research team led by a physicist at the University of California, Riverside, has identified a microscopic process of electron spin dynamics in nanoparticles that could impact the design of applications in medicine, quantum computation, and spintronics.
➖@Physics_Revives➖
phys.org
Small magnets reveal big secrets
An international research team led by a physicist at the University of California, Riverside, has identified a microscopic process of electron spin dynamics in nanoparticles that could impact the design ...
#Magnetism
#Astronomy
#PhysicsNews
#ScientificAmerican
➖@Physics_Revives➖
Swirling Magnetic Fields Hint at Origins of Spiral Galaxy Shapes
The formation of spiral galaxies remains an open question in astronomy, but a new study offers a fresh look into how these structures emerge
➖@Physics_Revives➖
#Astronomy
#PhysicsNews
#ScientificAmerican
➖@Physics_Revives➖
Swirling Magnetic Fields Hint at Origins of Spiral Galaxy Shapes
The formation of spiral galaxies remains an open question in astronomy, but a new study offers a fresh look into how these structures emerge
➖@Physics_Revives➖
Scientific American
Swirling Magnetic Fields Hint at Origins of Spiral Galaxy Shapes
The formation of spiral galaxies remains an open question in astronomy, but a new study offers a fresh look into how these structures emerge
#NanoTechNEWS
#Magnetism
➖@Phytimes➖
New shortcut enables faster creation of spin pattern in magnet
Physicists have discovered a much faster approach to create a pattern of spins in a magnet. This shortcut opens a new chapter in topology research. This discovery also offers an additional method to achieve more efficient magnetic data storage. The research will be published on 5 October in Nature Materials.
➖@Phytimes➖
#Magnetism
➖@Phytimes➖
New shortcut enables faster creation of spin pattern in magnet
Physicists have discovered a much faster approach to create a pattern of spins in a magnet. This shortcut opens a new chapter in topology research. This discovery also offers an additional method to achieve more efficient magnetic data storage. The research will be published on 5 October in Nature Materials.
➖@Phytimes➖
phys.org
New shortcut enables faster creation of spin pattern in magnet
Physicists have discovered a much faster approach to create a pattern of spins in a magnet. This shortcut opens a new chapter in topology research. This discovery also offers an additional method to achieve ...
#PhysicsNEWS
#Magnetism
➖@Phytimes➖
Physicists observe competition between magnetic orders
They are as thin as a hair, only a hundred thousand times thinner—so-called two-dimensional materials, consisting of a single layer of atoms, have been booming in research for years. They became known to a wider audience when two Russian-British scientists were awarded the Nobel Prize in Physics in 2010 for the discovery of graphene, a building block of graphite. The special feature of such materials is that they possess novel properties that can only be explained with the help of the laws of quantum mechanics and that may be relevant for enhanced technologies. Researchers at the University of Bonn (Germany) have now used ultracold atoms to gain new insights into previously unknown quantum phenomena. They found out that the magnetic orders between two coupled thin films of atoms compete with each other. The study has been published in the journal Nature.
➖@Phytimes➖
#Magnetism
➖@Phytimes➖
Physicists observe competition between magnetic orders
They are as thin as a hair, only a hundred thousand times thinner—so-called two-dimensional materials, consisting of a single layer of atoms, have been booming in research for years. They became known to a wider audience when two Russian-British scientists were awarded the Nobel Prize in Physics in 2010 for the discovery of graphene, a building block of graphite. The special feature of such materials is that they possess novel properties that can only be explained with the help of the laws of quantum mechanics and that may be relevant for enhanced technologies. Researchers at the University of Bonn (Germany) have now used ultracold atoms to gain new insights into previously unknown quantum phenomena. They found out that the magnetic orders between two coupled thin films of atoms compete with each other. The study has been published in the journal Nature.
➖@Phytimes➖
phys.org
Physicists observe competition between magnetic orders
They are as thin as a hair, only a hundred thousand times thinner—so-called two-dimensional materials, consisting of a single layer of atoms, have been booming in research for years. They became known ...