Nederlands

Optical Drive Magnetic Control: A Breakthrough in Memory Technology

897
2024-01-06 14:21:21
Bekijk vertaling

A recent study conducted by the Hebrew University suggests an undiscovered relationship between magnetism and light. This discovery may pave the way for extremely fast optical storage technology and creative optical magnetic sensor technology.

It is expected that this discovery will completely change the way equipment is manufactured and data is stored in a range of fields.

Amir Capua, Professor and Head of the Spintronics Laboratory at the Institute of Applied Physics and Electrical Engineering at the Hebrew University of Jerusalem, reported on significant developments in the field of optomagnetic interactions. The team's surprising discovery demonstrated the process of manipulating solid magnetic states using optical laser beams, providing practical significance for a range of industries.

The discovery of neglected photomagnetic components, which are often overlooked due to the slower reaction of magnets compared to light radiation, contradicts recognized knowledge. The team's research has revealed a new theory: the ability of rapidly oscillating light wave magnetic components to manipulate magnets redefines fundamental physical interactions.

It is interesting that people have found a simple mathematical relationship between the amplitude, frequency, and energy absorption of magnetic materials to characterize the strength of interactions.

This discovery combines concepts from two scientific disciplines that previously had little in common and were closely related to the field of quantum technology. We arrived at this understanding by using principles that have been established in the quantum computing and quantum optics communities, but are less important in the spintronics and magnetism communities.

When magnetic materials and radiation are in a perfect equilibrium state, their interaction is recognized. However, so far, the situation involving radiation and imbalanced magnetic materials has only been described very briefly.

The fundamental principles of quantum computing and quantum optics were discovered in this non-equilibrium field. Using the concepts of quantum physics, we studied this non-equilibrium state in magnetic materials and demonstrated evidence of the fundamental idea that magnets can react to light at a short time scale. In addition, this kind of communication has been proven to be very meaningful and effective.

In addition, the group has also developed a unique sensor that can combine this discovery to identify the magnetic composition of light. Compared to traditional sensors, this innovative design provides adaptability and integration for a wide range of applications, which may alter sensor and circuit design to achieve different uses for light.

Mr. Benjamin Assouline, a doctoral student at the Spintronics Laboratory, conducted this study, which is crucial for this discovery. Recognizing the potential significance of their findings, the team has submitted multiple related patent applications.

The study was funded by the Israel Science Foundation, the Peter Broyd Center for Innovation Engineering and Computer Science, and the Center for Nanoscience and Nanotechnology at the Hebrew University of Jerusalem.

Source: Laser Net

Gerelateerde aanbevelingen
  • Single photon avalanche diode detector enables 3D quantum ghost imaging

    A team of researchers at the Fraunhofer Institute for Optoelectronics, Systems Technology and Image Development and Karlsruhe Institute of Technology are using single-photon avalanche diode (SPAD) arrays to achieve three-dimensional (3D) quantum ghost imaging.The new method, called "asynchronous detection," produces the lowest photon dose of any measurement and can be used to image light-sensitive...

    2023-09-06
    Bekijk vertaling
  • Leica Measurement System Development First Person Laser Scanner

    Leica Geosystems, a subsidiary of Hexagon, has developed Leica BLK2GO PULSE, its first person laser scanner, which combines LiDAR sensor technology with the original Leica BLK2GO shape. The technology will be released in early 2024.The scanner provides users with a fast, simple, and intuitive first person scanning method that can be controlled through a smartphone and provides real-time full color...

    2023-10-19
    Bekijk vertaling
  • The market accounts for up to 70%! Meere is continuously expanding its market layout

    According to Korean media reports, Meere, a semiconductor and display equipment manufacturer from South Korea, is continuously expanding its presence in the high stack semiconductor market, including its HBM business.In fact, Meere itself is the world's top manufacturer of display edge grinding mechanisms, with a market share of up to 70%. It is based on its accumulation of display microfabricatio...

    2024-06-25
    Bekijk vertaling
  • Eoptolink launches optical transceivers for immersion cooling

    Eoptolink Technology has expanded its product portfolio to meet the new market of optical transceiver modules operating in environments using immersion cooling.The Eoptolink EOLO-138HG-5H-SYMR is an optical transceiver for the 800G OSFP DR8, which can be completely immersed in a 2-phase liquid cooling environment. The EOLO-138HG-02-SYMR is an 800G OSFP DR8+. This transceiver has fiber optic tail f...

    2024-03-26
    Bekijk vertaling
  • Nanjing University of Science and Technology has made new progress in the field of programmable lensless holographic cameras

    Recently, Professor Chen Qian and Professor Zuo Chao's research group from the School of Electronic Engineering and Optoelectronic Technology at Nanjing University of Science and Technology proposed a minimalist optical imaging method based on programmable masks - programmable Fresnel zone aperture lensless imaging technology. The related achievement, titled "Lensless Imaging with a Programmable F...

    04-14
    Bekijk vertaling