Nederlands

Fraunhofer ISE develops a faster laser system for wafer processing

1048
2023-12-23 14:00:27
Bekijk vertaling

By using a new type of laser, the processing speed of wafers can be 10 to 20 times faster than before. This is the result of a research project at the Fraunhofer Institute for Solar Systems in Germany.

Researchers have developed a prototype that can use ultraviolet waves to carve the most intricate structures on silicon wafers. The new system concept enables solar cell manufacturers to perform laser processing at the highest speed without compromising on the size of the structure or processing field.

In order to produce photovoltaic cells from wafers, wafers must be metallized. In this step, the fine channels are grooved at the top of the cell. Silver paste enters the channel and is then used as a conductor track. The speed at which the channel enters the silicon wafer is crucial for battery production to further reduce production costs.

The laser provided by Fraunhofer ISE can draw 1800 lines per second. This is 10 to 20 times faster than so-called galvanometer scanners, which are typically used for this purpose. The laser has a high repetition rate of 10 megahertz and a maximum pulse energy of 5.6 microjoules.

This laser can also process M12 format wafers with a side length of 210 millimeters. The laser engraving channel is only 15 microns wide. This is 30% finer than the currently commercially used ultraviolet laser. Compared to the very common infrared laser, the channel of the new laser is three times larger. A finer channel can reduce the use of silver paste, thereby helping to further reduce production costs.

"The unique feature of the demonstrator design is that large workpieces can be processed very quickly and the structural dimensions are small," said Jale Schneider, project manager at Fraunhofer ISE. The idea that you can only have two of these three characteristics at the same time - large image field, rapid processing, and fine structure - is deeply rooted in the laser material processing industry. With this system, we have achieved these three aspirations simultaneously.

German laser expert Edgewave GmbH has developed a prototype. Moewe Optical Solutions built a polygon scanner for this project. At Fraunhofer ISE, the team combined a polygonal scanner, laser, and axis for beam guidance into a system. The group now hopes to research new processes to increase production.

Source: Laser Net

Gerelateerde aanbevelingen
  • Due to breakthroughs in microchip photonics, microwave signals have now become very accurate

    Zhao Yun/Columbia Engineering Company provided an advanced schematic of a photonic integrated chip, which aims to convert high-frequency signals into low-frequency signals using all optical frequency division.Scientists have built a small all optical device with the lowest microwave noise ever recorded on integrated chips.In order to improve the performance of electronic devices used for global n...

    2024-04-01
    Bekijk vertaling
  • British scientists pioneered groundbreaking laser tools to help discover exoplanets

    Physicists from the University of Heriot and the University of Cambridge have developed an innovative laser system called Astrocomb, which can significantly improve the detection of exoplanets. This advanced tool can accurately measure the spectra emitted by nearby stars, which fluctuate due to the gravitational influence of orbiting planets. It is expected that this technology will enhance resear...

    2024-04-02
    Bekijk vertaling
  • A new method of generating laser without the need for mirrors

    A new laser generation method: a laser without a reflector. This study, conducted by a team of physicists from the University of Innsbruck and Harvard University, shows that quantum emitters with spacing smaller than the wavelength can achieve constructive synchronization of photon emission, resulting in bright and extremely narrow bandwidth beams, even without any optical resonant cavities.The ac...

    2 dagen geleden
    Bekijk vertaling
  • Is CTC technology in the booming new energy industry likely to disrupt the fiber laser industry?

    Recently, the term CTC technology has become a hot topic in the new energy vehicle industry. During the relatively slow period of electrochemical innovation, this structural innovation effectively helped the new energy industry reduce costs and increase efficiency, while also increasing the range of new energy vehicles to a certain extent. However, recently the author learned that the concept of C...

    2023-09-18
    Bekijk vertaling
  • Scientists from the SLAC National Accelerator Laboratory in the United States have launched the world's most powerful X-ray laser

    Scientists at the SLAC National Accelerator Laboratory have launched the world's most powerful X-ray laser, which will be used for in-depth atomic and molecular research.It is a significant upgrade to its predecessor, as its brightness has increased by 10000 times.The upgraded laser facility also uses superconducting accelerator components, allowing it to operate at low temperatures near absolute ...

    2023-11-17
    Bekijk vertaling