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Last Updated: 14 August 2025, 12:04 Morning
The study shows the ability of megon ‘stars’ for advanced technologies
A new research shows how a type of magnetic systems found in magnesis, how acne – which can connect bilateral relations between “quicaparticles” that takes energy. This discovery provides insights to tune in in quantum technologies, and opens the door to modern applications.
Researchers from colleges and universities in New York, Florida, Czech Republic, Germany, England and Spain, two researchers at the NREL have proven that in a special class of magnetic semiconductor materials, an electron pair conversation, which is the next generation of electronic and electronic devices. He appointed a theoretical quantum mechanical framework he created to explain these observations. This new search, under the guidance of theory, can lead to the development of quantum transcripts.
“It is observed that the magnetic sector can modify particle interaction in these substances, is a change for our understanding of magnetic semiconductors,” said Mark Van Shalifgard, chief theoret of NREL, who participated in the study. “Understanding such a very complex phenomenon is possible because of recent progress in theory methods and computing power. Our study has greatly benefited these progress with these developments and experimental groups.”
The research team published its searches in a article published Content of natureFor, for, for,. “Wayne Deer Wallstefiro Magnet titled the Magnon Mediation Extentin-Expeston Reconciliation”. Finance for this was provided by the US Department of Energy’s Office of Energy Science Basic Energy Sciences, which included the National Science Foundation, Army Research Office, Office Naval Research, Gordon and the Betty Moore Foundation, Simons Foundation, the Spanish Ministry of Science, Innovation, and the Ministry of Education, and the Ministry of Education.
Understanding the formation of ancients and Magonon
Although they are hidden from the bare eyes, the Exceptions are a “Co -Partial” that is commonly found in everyday electronic devices. From solar panels to LED lights, and even smartphones.
When the light collides with a substance, it can strengthen an electron, which causes it to jump to the high energy level and overtake the “hole” or the missing electron. This electron and holes, which are attracted to each other due to their opposing accusations, can either be quickly separated and operate independently, or can stay close together and create a joint institution called an exit. This Austein is a passionate state that behaves as the same, neutral “co -copertical”. This process can also be overturned, the electron releases light and returns to its original state, and thus eliminates acne. This phenomenon is the basis of many modern electronic devices, as it affects how this material absorbs and emits light. Different types within a substance can take energy at different distances and have different levels of energy, which offer new types of opit electronics numerous possibilities.
“The enthusiasm of a substance within a substance is very different in their energy -bound energy, which affects their ability to carry energy at a small or larger distance,” said Acharya, a basic theoretical researcher. “The ability to control them provides a full playground to produce many new types of electronics that they absorb and emit light.”
Similarly, in the way the exitone affects the optical properties of a material, Magonon provides a way to connect the magnetic properties of a material. Each electron – whether or not a part of an actin – contains a hidden compass needle (axis) based in one of the two directions, known as its “spin”. The electrons do not always align the same way within the same substance, and the electron’s rotation results in the sample that they respond to the magnetic fields. External effects, such as temperature change or energy absorption, can cause shift and tremor in electron rotation, causing waves called meguns. Like light, Magonon exhibits both wave -like features (such as frequency and wavelengths) and particle behavior (such as energy and speed transfer).
To discover a way to control the integration interactions
The research team selected chromium sulfide bromide (CRSBR) for its study. CRSBR is a layered material such as graphite -sheet bonds are strong, while sheets are very weak. This makes the CRSBR QUASI-TWO dimension. Due to its layers of nature, it is a magnetic semiconductor that supports both exstones and Magnin while effectively absorbing and eliminating light.
The team used experimental techniques, such as applying various magnetic fields and enlightening materials with different severity of light, causing the formation to form anxatin.
He observed an important new observation based on these experiments. Generally, when light gives energy to electrons in a substance, it causes the formation of acoustic, and as more light absorbs, the density of the extras increases. Since the working together with each other removes each other, which increases their energy. However, in this study, researchers applied an external magnetic field, which disturbed the electron’s rotation and created Magnan. As Magnon was formed, exceptone attracted to each other, lowering their energy to a faster rate than it is usually being. Result? A “non -liner Redshaft” in Excert Energy – combined with magnetism.
“What is happening here is that in a limited magnetic field where rotation is deducted, such as increases the density, as a result, it affects the angle between subtitis spinners,” said City College in Vinod Menon of New York, who was the beginning of this study. “This also has an impact on the overall Axaton energy. It is still less low due to the higher the interlaner couple.”
The theoretical modeling performed by NREL researchers explained the exact role of magnesis to operate experimentally observed non -liner optical effects and pointed to modern, magnetically tune -to -tubable technologies based on this class content.
The implications of controlling the Excert interactions with the Magnone
Beyond the CRSBR, the discovery of the team’s megun mediation’s mediation, the door to several applications opens. Optical devices that respond to low intensity light can be improved with the mechanism, which gives cameras that are more accurate to the fine changes in light. Quantum Trans Dosses that bridge the microwave and optical signals can be improved to improve the speed and more reliable Internet speed and communication networks. The next generation processor who uses light instead of electricity to process information can get faster, more efficient processor for devices like computers and phones.
Acharya said, “Low -dimensional magnetic content, and especially CRSBR,” offer a very intelligent medium for the next generation of applications in photonics, quantum computing, sensing, and transctions. Due to our modern ideological framework, we can now understand the extraordinary complex interaction between light and magnetism in these substances. “
Get more information about The basic energy studies In the NALL and about the US Department of Energy Office Science Basic Energy Sciences Program. Read “Magnon Mediating Antifero Magnet Intent to Magnavin Mediating Antifier Magnet”I Content of nature.
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