Português

Toronto research has discovered 21 new sources of organic solid-state lasers

889
2024-05-22 14:15:17
Ver tradução

Organic solid-state lasers (OSLs) are expected to achieve widespread applications due to their flexibility, tunability, and efficiency. However, they are difficult to manufacture and require over 150.000 possible experiments to find successful new materials, and discovering them will be a work of several lifetimes. In fact, according to data from the University of Toronto in Canada, only 10-20 new OSL materials have been tested in the past few decades.

Now, researchers from the university's acceleration alliance have accepted this challenge and used Autonomous Driving Laboratory (SDL) technology. Once established, they can synthesize and test over 1000 potential OSL materials and discover at least 21 OSL gain candidate materials within a few months.

SDL uses artificial intelligence and robot synthesis to simplify the process of identifying new materials. In this case, the new materials exhibit excellent laser properties. The Toronto team stated that so far, SDL is typically limited to one physics laboratory in one geographical location.

This work was described in a paper titled "Discovery of delocalized asynchronous closed-loop of organic laser emitters" in the journal Science. In this study, laboratories from Toronto and Vancouver, Canada, Glasgow, Scotland, Illinois, USA, and Fukuoka, Japan were all involved.

Each laboratory can contribute its professional knowledge and resources. This decentralized workflow is managed by a cloud based platform, which not only improves efficiency but also allows for rapid replication of experimental results, ultimately democratizing the discovery process and accelerating the development of next-generation laser technology.

"This paper demonstrates that closed-loop methods can be delocalized, and researchers can accelerate the discovery of materials in the early stages of commercialization from molecular states to devices," said Dr. Al á n Aspuru Guzik, Director of the Acceleration Alliance.
"The team designed an experiment from molecules to devices, with the final equipment manufactured in Japan. They were scaled up in Vancouver and then transferred to Japan for characterization," he said.

The discovery of these new materials represents a significant advancement in the field of molecular optoelectronics. It paves the way for the performance and functional enhancement of OSL devices, and sets a precedent for future delocalized discovery activities in the fields of materials science and autonomous driving laboratories.

Toptica launches FemtoFiber ultra series lasers
Laser developer Toptica has launched the FemtoFiber Ultra series, the company's "next-generation femtosecond fiber laser" designed specifically for multiphoton microscopy, two-photon lithography, and semiconductor detection.

With over 20 years of experience in developing OEM grade fiber lasers, Toptica has created a turnkey, fully integrated, and optimized laser system that provides excellent performance and reliability for the most demanding scientific and industrial applications in the biotechnology and semiconductor industries.

The FemtoFiber ultra series offers unparalleled accuracy and consistency, delivering high average power, excellent temporal and spatial beam quality, and femtosecond pulses in a compact and sturdy package.

This industrial grade optical engine is designed to withstand the harsh conditions of advanced imaging and micro/nano processing, making it an ideal choice for high-end applications. Its seamless operation and low cost of ownership make it a multifunctional solution, enabling researchers and manufacturers to explore new fields of multiphoton microscopy and semiconductor detection.

Luisa Hofmann, Product Manager for Biophotonics and Materials at Toptica, commented, "We designed these lasers to meet the ever-changing needs of our customers, providing them with powerful tools to deliver consistent results while minimizing downtime and costs, with output wavelengths of 780, 920, and 1050 nm.".

Source: Laser Net

Recomendações relacionadas
  • Researchers use lasers to measure and manipulate magnetic ripple interactions

    One vision for computing the future is to use ripples in magnetic fields as the fundamental mechanism. In this application, magnetic oscillators can be comparable to electricity and serve as the foundation of electronic products.In traditional digital technology, this magnetic system is expected to be much faster than today's technology, from laptops and smartphones to telecommunications. In quant...

    2024-03-05
    Ver tradução
  • CinIonic launches a new cinema screen specifically designed for laser theaters

    CinIonic announced the launch of a new cinema screen specifically designed for laser auditoriums. CinIonic Laser Screen 2.4 amplifies the power of laser projection by optimizing efficiency and enhancing screen presentation. This new screen is aimed at becoming the ideal companion for CinIonic Laser and is the first screen product in the CinIonic All Laser Solution portfolio.The CinIonic laser scre...

    2023-09-20
    Ver tradução
  • Research progress and prospects of CFRP laser surface cleaning

    Researchers from Materials Science at Harbin Institute of Technology, Zhengzhou Research Institute at Harbin Institute of Technology, and Key Laboratory of Microsystems and Microstructure Manufacturing at Harbin Institute of Technology, Ministry of Education, reviewed and reported on the research progress of laser surface cleaning of carbon fiber reinforced polymer composites (CFRP). The relevant ...

    03-06
    Ver tradução
  • NASA Completely Transforms Laser Communication and Space Weather Research

    NASA is a pioneer in space research, once again attracting the attention of the world with fascinating insights. In a recent press release, NASA announced plans to test revolutionary laser communication systems and study the interaction between Earth and space weather.A Great Leap in Space Communication: ILLUMA-TThe SpaceX 29 mission, scheduled for November 5th, will conduct research and technical...

    2023-10-23
    Ver tradução
  • Comparative Study of Resistance Spot Welding and Laser Spot Welding of Ultra High Strength Steel for Vehicles

    Researchers from Annamarai University in India and South Ural State University in Russia reported a comparative study of resistance spot welding and laser spot welding of ultra-high strength steel for automobiles. The related research was published in The International Journal of Lightweight Materials and Manufacturing under the title "A comparative study on resistance spot and laser beam spot wel...

    2024-09-05
    Ver tradução