繁体中文

Researchers have proposed a new idea for quasi particle driven ultra bright light sources, which can be used in various applications from non-destructive imaging to chip manufacturing

941
2023-10-24 14:07:30
查看翻譯

An international team of scientists is rethinking the fundamental principles of radiation physics, aiming to create ultra bright light sources. In a new study published in Nature Photonics, researchers from the Higher Institute of Technology in Lisbon, Portugal, the University of Rochester, the University of California, Los Angeles, and the Optical Applications Laboratory in France proposed the use of quasi particles to generate light sources, which are as powerful as the most advanced light sources today, but have much smaller volume scales.

Quasiparticles are formed by many synchronously moving electrons. They can move at any speed, even faster than light, and can withstand powerful forces similar to those near black holes.

The most fascinating thing about quasi particles is that they can move in ways that are not allowed by the laws of physics that control individual particles. The team studied the unique properties of quasi particles in plasma by running simulations on supercomputers provided by the European High Performance Computing Joint Project. They saw the application prospects of quasi particle based light sources, including non-destructive imaging for scanning viruses, understanding biological processes such as photosynthesis, manufacturing computer chips, and exploring the behavior of matter in planets and stars.

Researchers have stated that although each electron performs relatively simple motion, the total radiation of all electrons can simulate the radiation of particles moving faster than the speed of light, even if no local electron is faster than light or oscillating electrons.

Quasiparticle based light sources may have significant advantages over existing forms such as free electron lasers, as free electron lasers are scarce and large-scale, making them impractical for most laboratories, hospitals, and enterprises. According to the theory proposed by new research, quasi particles can generate incredibly bright light at short propagation distances, which may trigger widespread technological advancements in laboratories worldwide.

Source: Science and Technology Daily

相關推薦
  • DR Laser releases its 2024 semi annual report, achieving dual growth in revenue and profit

    A few days ago, DR laser released 2024 half-yearly report, the company realized operating income of 906 million yuan in the first half of the year, a year-on-year increase of 34.40%; net profit of 236 million yuan, a year-on-year increase of 35.51%. For the reasons of performance growth, DR laser said in the half-yearly report, the company's first half of the order continued to acceptance brough...

    2024-08-23
    查看翻譯
  • The Application of Femtosecond Laser in Precision Photonics Manufacturing

    Femtosecond laser emits ultra short light pulses with a duration of less than 1 picosecond, reaching the femtosecond domain. The characteristics of femtosecond lasers are extremely short pulse width and high peak intensity.Ultra short blasting can minimize waste heat, ensure precise material processing, and minimize incidental damage. Their peak intensities can cause nonlinear optical interactions...

    2024-02-28
    查看翻譯
  • First time! Significant progress has been made in low repetition rate fully polarization maintaining nine cavity fiber lasers

    Recently, the research team of the Aerospace Laser Technology and System Department of the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, reported for the first time a low repetition frequency full polarization maintaining 9-shaped cavity fiber laser at 915 nm. The relevant research results were published in Optics Express under the title "Low repetition rate 915 nm ...

    2024-05-07
    查看翻譯
  • University of Science and Technology of China Reveals High Precision Planarity Measurement of Cryogenic Arrays

    Professor Wang Jian, Deputy Chief Designer of the Low Temperature Array High Precision Planeness Survey Wide Area Sky Survey Telescope (WFST) announced by the University of Science and Technology of China, and teacher of the State Key Laboratory of Nuclear Detection and Nuclear Electronics, School of Physics, University of Science and Technology of China, is a research team of the Chinese Academy ...

    2023-08-14
    查看翻譯
  • New super-resolution microscopy imaging technology: rapid imaging of neurons

    The research group led by Wang Kai from the Center for Excellence in Brain Science and Intelligent Technology of the Chinese Academy of Sciences has published a research paper titled "Super solution imaging of fast morphological dynamics of neurons in eating animals" online in Nature Methods. The team has developed a new type of super-resolution microscopy imaging technology, which solves the two ...

    2024-12-04
    查看翻譯