chanelink logo
CHANELINK
繁体中文

BWT 969nm semiconductor pump source

341
2025-05-09 11:31:01
查看翻譯

Semiconductor laser pump sources, especially those with a wavelength of 969nm, have become the preferred choice for high-power/high peak energy disc lasers due to their reduced quantum losses and heat generation.

The 3000W 969nm fiber coupled semiconductor laser system launched by BWT uses 800 μ m NA0.22 fiber to output flat top optical energy distribution, combining lightweight and excellent optical performance, and can be widely used in scientific research and other fields.

In terms of design, BWT combines six 500 watt modules to achieve a 3000W power output scheme (as shown in the figure below). By adopting CTC chip integration technology, the system has the characteristics of miniaturization and lightweight, with a total size of only 80 * 482 * 521mm ³, a weight of only 24kg, and equipped with QBH output.


Figure 1. Fiber Bundle Output 3000W@969nm Lockwave


The system can achieve an output power of 300-3000W within the current range of 5-30A, with a center wavelength of 969nm and a side mode suppression ratio of over 25dB; When the power reaches 3000W, the edge mode suppression ratio is about 40dB, and the full width at half maximum of the spectrum is less than 0.3nm. To achieve a near flat top distribution of fiber output energy, BWT uses special techniques to improve energy uniformity, and the measured data shows a super Gaussian order greater than 4 (as shown in the figure below).


Figure 2. Power of 3000W semiconductor laser system

 


Figure 3. 3000W 969nm semiconductor laser system


At present, BWT has a full range of semiconductor laser products (380nm-1940nm, 2mW-6kW), with laser pump sources covering the full power range of 10W to 1000W in the 8XXnm and 9XXnm series. In the future, we will launch higher power semiconductor laser systems to meet the demand of disc lasers for amplifying and outputting higher pulse energy in ultrafast lasers.

Source: BWT

相關推薦

  • The INRS camera captures transient events and is suitable for various scenarios such as high-speed LiDAR systems for autonomous driving

    It is reported that the National Institutes of Sciences (INRS) of Canada has developed a camera platform that can achieve cheaper ultra fast imaging through the use of ready-made components, which can be used in various applications.This new device aims to address some of the limitations of current high-speed imaging, including parallax errors and potential damage from pulse illumination. Th...

    2023-10-07
    查看翻譯

  • Tokyo Institute of Technology collaborates with EX Fusion to promote laser fusion energy closer to commercialization

    Recently, Tokyo Institute of Technology and EX Fusion established a collaborative research group focused on promoting liquid metal equipment to achieve commercial laser fusion reactors. The two sides held an official signing ceremony in Tokyo on October 11th, marking the official start of their cooperation.The EX Fusion Liquid Metals Collaborative Research Group was established with the support of...

    2023-10-17
    查看翻譯

  • Han's Laser senior management resigns

    Just now, Han's Laser Technology Industry Group Co., Ltd. announced the resignation of senior management personnel. The board of directors recently received a written resignation report from Mr. Zhao Guanghui, the deputy director of the company's management and decision-making committee. Mr. Zhao Guanghui has applied to resign from his position as deputy director of the company's management and de...

    06-09
    查看翻譯

  • 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
    查看翻譯

  • Research progress on the interaction between strong laser and matter Electromagnetic induced transparency effect in plasma physics

    The transmission of electromagnetic waves (such as lasers) in plasma is a fundamental issue in plasma physics. In general, electromagnetic waves cannot be transmitted in high-density plasma, but their transmission and energy transfer play a crucial role in applications such as fast ignition laser fusion, laser particle acceleration, and ultra short and ultra bright radiation sources.In 1996, S. fr...

    2024-03-21
    查看翻譯