Русский

Xi'an Institute of Optics and Fine Mechanics has made significant progress in attosecond imaging research

953
2024-10-26 11:36:19
Посмотреть перевод

Recently, the Xi'an Institute of Optics and Fine Mechanics of the Chinese Academy of Sciences has made significant progress in attosecond imaging research, achieving high-resolution imaging of ultra wide spectrum light sources. The related results were published in the journal Photonics Research under the title "Snapshot coherent diffraction imaging across ultra wideband spectra".

Figure 1. Demonstration of multi-color diffraction. (a) Diffraction setting. (b) Example image. (c) FT of (b). (d) Obtained through zero padding around (b). (e) FT of (d). (f) Obtain (e) through cropping.

The duration of attosecond light pulses is extremely short (1 attosecond=10-18 seconds), which is a direct and effective means to expand the study of ultrafast dynamics of microscopic matter and reveal underlying physical laws in multiple fields. The attosecond light pulse can achieve ultra-high time resolution, while also possessing characteristics such as short wavelength, high coherence, and high-precision synchronous control. However, the inherent ultra wide spectrum of attosecond light pulses introduces significant chromatic aberration in imaging systems, and the interference between different spectral components and the lack of high-quality optical components in the extreme ultraviolet/soft X-ray band have become bottlenecks restricting the development of attosecond imaging. Our goal is to overcome these technological challenges, achieve ultra-high spatiotemporal resolution imaging based on attosecond light sources, and promote the application of attosecond light sources in fields such as biomedicine, laser precision processing, and semiconductors, "said Wang Hushan, head of the attosecond imaging research team at the attosecond Science and Technology Research Center.

The new method for calculating imaging using lensless ultra wide spectrum proposed by the research team of Xi'an Institute of Optics and Fine Mechanics can extract high-quality clear monochromatic diffraction patterns from blurry ultra wide spectrum diffraction patterns, thereby achieving high-resolution imaging. This method significantly improves the applicable spectral bandwidth of a single coherent diffraction imaging light source, with a spectral bandwidth to center wavelength ratio of up to 140%, which is currently a relatively advanced level internationally, "said Li Boyang, a member of the Amis Imaging Research Team at the Amis Science and Technology Research Center. This study provides a key technological path for attosecond imaging, which is of great significance for the construction of advanced attosecond laser facilities (part of Xi'an) imaging terminals and the significant application expansion of attosecond light sources in China's major scientific and technological infrastructure.

Figure 2. (a) (d) Narrow band coherent diffraction imaging; (b) (e) Direct inversion results of broadband optical diffraction patterns; (c) (f) Broadband coherent diffraction imaging achieved by the monochromatization method proposed by the team

The 2023 Nobel Prize in Physics is awarded to three scientists in recognition of their experimental method of generating attosecond light pulses for studying the electronic dynamics of matter. Fu Yuxi, Deputy Director of Xi'an Institute of Optics and Fine Mechanics, introduced, "Since our establishment, we have had a solid theoretical research foundation in the field of ultrafast light science. In recent years, we have deployed fundamental, forward-looking, and systematic research in the field of ultrafast light science. In 2021, we specifically established the Ames Science and Technology Research Center, closely focusing on the forefront of world science and technology and major national needs, striving to build an international first-class innovative research platform and talent team, and providing key support for seizing the high ground in the field of ultrafast light science.

Source: Opticsky

Связанные рекомендации
  • Due to research conducted by scientists from South Korea and the UK, the power of lasers will increase by one million times

    Due to research conducted by scientists from South Korea and the UK, the power of lasers will be able to increase by one million times. The researchers plan to apply this improvement for scientific purposes.The study was led by representatives of Strathclyde University and the Korea Institute UNIST and GIST. Behind the scenes footage of their work in the journal Nature Photonics. It has been prove...

    2023-11-27
    Посмотреть перевод
  • The researchers used ultrafast lasers to create nanoscale photonic crystals

    The optical properties of photonic crystals are closely related to their lattice constants, which are usually required to be in the same order of magnitude as the operating wavelength. In a crystal material, the photonic crystal structure is formed by the periodic arrangement in space of units whose dielectric constant is different from that of the crystal itself, and whose lattice constant depend...

    2023-08-04
    Посмотреть перевод
  • Romania Center launches the world's most powerful laser

    Are you ready? The signal is out! "In the control room of a research center in Romania, engineer Antonio Toma has activated the world's most powerful laser, which is expected to make revolutionary progress in various fields from the health sector to space. The laser located in the center near the Romanian capital Bucharest is operated by the French company Thales and utilizes the invention of Nobe...

    2024-04-01
    Посмотреть перевод
  • Efficient implementation of laser welding automation using modern measurement technology

    Ensuring the integrity and quality of the welded hair clip is crucial in the assembly of electric motors. Usually, 160 to 220 hair clips are welded to each motor, and the accuracy of these welds directly affects the overall quality of the stator and motor. The traditional method of detecting these welds is difficult to balance the requirements of safety and accuracy, which often leads to damage to...

    2024-06-13
    Посмотреть перевод
  • Topcon Announces the Launch of LN-50 3D Laser

    Earlier this month, before the annual Intergeo conference held in Germany, Topcon Positioning Systems announced the latest member of its robot total station series. This California based company launched the LN-50 3D laser in early October, marking their latest layout navigator, which has a range of 50 meters.They pointed out that this latest scanner is specifically designed for homebuilders, mech...

    2023-10-25
    Посмотреть перевод