chanelink logo
CHANELINK
Русский

Germany and the United States jointly build a $150 million laser equipment laboratory for studying inertial fusion energy and high energy density physics

710
2023-08-10 18:21:03
Посмотреть перевод
German laser Fusion developer Marvel Fusion said it will partner with Colorado State University (CSU) on a new $150 million laser equipment lab to study inertial fusion energy and high energy density physics.

"It will be home to one of the most powerful laser facilities in the world and an international center for laser fusion energy and high energy density physics research," the company said in a statement announcing the agreement.
A public-private partnership supported by the U.S. Department of Energy's LaserNetUS program will establish a "next-generation high-power laser and fusion research facility" at the Foothills campus of Colorado State University.

Ultrafast method

As one of the few new venture-backed private companies targeting commercial laser-driven Fusion energy, Marvel Fusion says the state-of-the-art facility will serve as a platform to advance its unique approach to this enormous challenge.

The startup has strong ties to the Extreme Light Infrastructure (ELI) project in Eastern Europe, and its chief technology officer Georg Korn was formerly the ELI's technical director.

Korn co-founded the company in 2019 with CEO Moritz von der Linden, Karl-Georg Schlesinger and Pasha Shabalin. Previously, the company has raised €60 million in funding and partnered with defense giant Thales to upgrade Romania's 10 gigawatt Extreme Optics - Nuclear Physics Project (ELI-NP) facility and set up a U.S. subsidiary.

The company plans to use ultrafast lasers and "nanostructured" fuels to enhance the fusion of protons and boron-11 isotopes.

"This public-private partnership sets the global standard for laser fusion research and advances the development of safe, clean and reliable energy." This is an incredible step forward for Marvel Fusion and a testament to our success and vision."

"Over the past two years, I have worked with the world-class team at Colorado State University to achieve immeasurable results. We are grateful to Colorado State University, the state of Colorado, and the U.S. Department of Energy for their trust and support of the LaserNetUS project."
 

LaserNetUS covers the most powerful lasers in the United States and Canada

10Hz Repetition rate

The new lab, scheduled for completion in 2026, is expected to have at least three laser systems, each with a peak power of multiple pewatts and a repetition rate of 10 Hertz. "Such a combination of lasers will make the facility unique in the world, and it will be designed to accommodate future extensions and additional lasers," the company said.

Marvel Fusion is working on a proton-boron fusion method. The company has developed a short-pulse laser technology with direct diode pumping. The company's approach utilizes a peak power laser output of more than 10 PW and relies on its diode technology to ensure that its lasers can deliver pulse repetition rates of up to 10 Hz.

"Csu is at the forefront of laser research, and this new partnership will solidify CSU's position as an international leader in laser science, a field that has the potential to bring profound benefits to our planet for generations to come," said CSU President Amy Parsons.

The LaserNetUS project, funded by the U.S. Department of Energy's Office of Fusion Energy Sciences, recently announced $28.5 million in new funding support for high-power laser laboratories in the United States and Canada.

The U.S. Department of Energy has awarded CSU $12.5 million for laser upgrade prototypes that will help create and maintain the quality and expertise of equipment that makes projects like the new lab facility possible.

Marvel Fusion said that through the collaboration, Colorado State University's ability to conduct high-power laser research and its applications will be greatly expanded, with opportunities in semiconductor chip production, materials science, high energy density science and high energy physics, of which fusion is just one application.

It is expected to inspire and facilitate further collaboration with industry, other universities and US national laboratories.

Prototype development

"This is an exciting opportunity for laser-based science, an ideal facility for discovery and advanced technology development with enormous potential for societal impact," Jorge Rocca, director of the Advanced Laser and Extreme Photonics Laboratory at Colorado State University, said in the release.

In addition to the CSU project, Marvel Fusion says it is planning to build a prototype as the next step toward a commercial fusion power plant.

"The prototype will house hundreds of laser systems capable of fusion ignition and demonstrate the technology at scale," the company said. The company will conduct the work through its Colorado subsidiary.

Source: Yangtze River Delta Laser Alliance

Связанные рекомендации

  • Feasibility Study on Composite Manufacturing of Laser Powder Bed Melting and Cold Casting

    It is reported that researchers from the Technical University of Munich in Germany have reported a feasibility study on the composite manufacturing of EN AC-42000 alloy by combining laser powder bed melting and cold casting. The related research titled "Feasibility study on hybrid manufacturing combining laser based powder bed fusion and chill casting on the example of EN AC-42000 alloy" was publi...

    2024-06-06
    Посмотреть перевод

  • Changing Optical Design: How Multi scale Simulation Improves the Efficiency of Modern Devices

    Optical equipment is an integral part of technologies such as data centers and autonomous vehicle, which are constantly developing to meet the needs of complex applications. The challenge faced by designers is to manipulate light at the wavelength scale to achieve the required optical properties, which requires precision at both the nano and macro scales. Nanoscale structures, such as those on LED...

    2024-03-02
    Посмотреть перевод

  • Combined spectral lasers can unlock the potential of laser plasma accelerators

    A team of researchers in Berkeley Lab's Accelerator Technology and Applied Physics (ATAP) division has developed a new technique that combines fiber lasers of different wavelengths to generate ultra-short laser pulses. The research is in the journal Optics Letters.This work could advance the development of laser plasma accelerators (LPA), which have the potential to push the frontiers of high-en...

    2023-08-04
    Посмотреть перевод

  • BAE conducts laser pipeline scanning tests at the shipyard

    BAE Systems Australia has successfully conducted experiments at the Osborne Naval Shipyard and Henderson Shipyard, using laser scanning technology to create 3D models of pipelines that will be installed on the currently under construction Hunter class frigates.A one week trial was conducted at the Zero Line Future factory in southern Adelaide and BAE Systems Australia's Henderson Shipyard, demonst...

    2023-12-13
    Посмотреть перевод

  • Israeli startup has developed a new laser powder bed fusion technology (SLS)

    Starting company 3DM from Israel has developed a new laser powder bed fusion technology (SLS) and recently released its first product. It is reported that the new technology developed by this young company established in 2016 will open up the possibility of new materials.3DM quantum cascade laserThe quantum cascade laser (QCL) stands out in the competition of 3DM in the SLS field. QCL was develope...

    2023-10-27
    Посмотреть перевод