Nederlands

Launching the world's strongest laser at a cost of 320 million euros

807
2024-04-03 18:05:29
Bekijk vertaling

   Beijing, April 1st (Reporter Liu Xia) - The world's most powerful laser has been activated recently. On March 31st, the Physicist Organization Network reported that the system can enable laser pulses to reach a peak of 10 terawatts (1 terawatt=100 terawatts=1015 watts) within 1 femtosecond (1000 trillions of a second), which is expected to promote revolutionary progress in multiple fields from medicine to basic physics and space.

   The high-tech center to which this laser belongs is located in Romania, mainly funded by the European Union, with a cost of 320 million euros, utilizing the invention of French scientists such as Gerald Muru.

   Scientists have been committed to manufacturing more powerful lasers. In the mid-1980s, the Muru team invented Chirped Pulse Amplification (CPA) technology, which can increase the power of lasers while maintaining their intensity. Its working principle is to stretch an ultra short laser pulse in time, amplify it, and then squeeze it together again to create the shortest and strongest laser pulse to date.

   Mulu was awarded the 2018 Nobel Prize in Physics for developing a method for producing high-intensity, ultra short light pulses. This technology is expected to be widely applied in fields such as nuclear physics and particle physics, medicine, etc. In the medical field, this technology has promoted the development of cataract and refractive surgery.

   Muru pointed out that they will start with a tiny glowing "seed" with minimal energy, which will be magnified millions of times. They will use these ultra-high voltage pulses to generate more compact and cheaper particle accelerators to destroy cancer cells. Other possible applications include processing nuclear waste by reducing its radioactive duration, cleaning up accumulated debris in space, and so on.

Gerelateerde aanbevelingen
  • SpaceX will sell satellite lasers to competitors that can accelerate space communication

    SpaceX President Gwynne Shotwell stated at a meeting on Tuesday that the company has started selling satellite lasers for fast space communication to other satellite companies.SpaceX's thousands of Starlink satellites in low Earth orbit use inter satellite laser links to transmit data to each other in space at the speed of light, so that the network can provide more extensive Internet coverage wo...

    2024-05-10
    Bekijk vertaling
  • Scientists are using lasers to create lunar paving blocks

    Original Hal Bowman 9000 Scientific RazorThe 3 kW laser power output on a 45 mm laser spot consolidates the interlocking structure within the EAC-1A powder bed. Source: Jens Kinst, BAMBy using lasers to melt lunar soil into stronger layered materials, it is possible to build paved roads and landing pads on the moon, according to a concept validation study in a scientific report. Although these exp...

    2023-10-14
    Bekijk vertaling
  • Integra Optics launches groundbreaking XGS-PON and GPON combined OLT SFP+optical transceivers

    Infinite Electronics brand and innovative operator level global supplier of fiber optic components, Integra Optics, announced the launch of its latest innovative product, the XGS-PON and GPON combination OLT SFP+BiDi optical transceiver module. This module integrates the passive optical network OLT and GPON OLT optical modules of XG (S), promoting seamless network rate deployment within the optica...

    2024-04-11
    Bekijk vertaling
  • Samsung and SK Hynix Explore Laser Debonding Technology

    According to South Korean media etnews, Samsung Electronics and SK Hynix have started the process technology conversion of high bandwidth memory (HBM) wafers, with the introduction of new technologies to prevent wafer warping as the core, which is considered to be aimed at the next generation HBM. It is expected that with the process transformation, the material and equipment supply chain will als...

    2024-07-16
    Bekijk vertaling
  • The scientific research team has proposed a modeless Raman fiber laser using a traditional resonant cavity structure

    The pump source, gain material, and resonant cavity are the three elements that make up a laser. Due to the selective effect of the resonant cavity on the lasing frequency, multi longitudinal mode operation is one of the characteristics of fiber lasers based on traditional resonant cavity structures, manifested as periodic beat peaks in the radio frequency (RF) spectrum and periodic fluctuations i...

    2023-08-15
    Bekijk vertaling