chanelink logo
CHANELINK
繁体中文

Sivers Photonics has received a $1 million order for advanced optical sensing products in fields such as LiDAR and industrial applications

212
2023-11-30 14:11:56
查看翻譯

Sivers Semiconductors AB announced that its subsidiary Sivers Photonics has received a new order worth $1 million for advanced optical sensing products from three customers in the fields of LiDAR, Medical, and Industrial.

In the first half of the fourth quarter of 2023, new orders were received from several US clients, which will lead to the manufacturing of advanced lasers and optical amplifiers for critical applications. It is expected that most deliveries will be completed throughout 2024.

Sivers Photonics has world-class production facilities in Glasgow, UK, with over 20 years of experience in designing and manufacturing customized III-V compound semiconductor devices. The company is a leading supplier of laser light sources in the silicon photonics industry, collaborating with a range of clients ranging from Fortune 100 companies to financially strong and high growth startups.

These latest orders are due to the company's design of next-generation products for autonomous vehicle and smart factories, innovative medical devices and equipment, and a variety of new applications in all walks of life, thus increasing the demand for Sivers lasers.

These production orders indicate that the mature and emerging optical sensing market will continue to experience strong organic growth, and further validate the technical capabilities of the Sivers Photonics UK wafer manufacturing plant.

"We have set a mid-term goal to increase product sales from the current 30% of revenue to over 80% by 2026. Therefore, this is one of the many product orders we expect to see to ensure our sustained growth, which will be driven by an increase in product revenue share in the coming years," said Anders Storm, CEO of Sivers Semiconductors.

Source: Laser Net

相關推薦

  • Researchers have created the first organic semiconductor laser to operate without the need for a separate light source

    OLED is located at the top and is formed by an organic layer between the contacts. Apply voltage to it, inject charge and generate light, which in turn excites organic laser. Organic lasers contain a grating that can generate feedback and diffract some of the laser out of the structure.Organic laserResearchers have created the first organic semiconductor laser to operate without the need for a sep...

    2023-11-29
    查看翻譯

  • Infinira launches an optical solution for 1.6 Tbps ICE-D data centers

    Infinira, an expert in optical network solutions, announced the launch of a high-speed data center optical transmission module based on single-chip indium phosphide (InP) photonic integrated circuit (PIC) technology. The company claims that the module will connect at a speed of 1.6 terabits per second (Tb/s), while reducing the cost and power consumption per bit.Yingfeilang stated that its data ce...

    2024-03-18
    查看翻譯

  • Researchers have successfully developed the world's first superconducting broadband photon detector

    Researchers at the National Institute of Information and Communication Technology in the United States have invented a new structure of a superconducting strip photon detector that can achieve efficient photon detection even in wide strips, and have successfully developed the world's first superconducting wide strip photon detector.The band width of the detector is more than 200 times that of trad...

    2023-11-02
    查看翻譯

  • Pressure sensing using dual color laser absorption spectroscopy

    The research team led by Professor Gao Xiaoming and Professor Liu Kun of the Chinese Academy of Sciences Hefei Institute of Physical Sciences recently designed a concentration independent pressure sensing technology for high-temperature combustion diagnosis. This method is based on dual color laser absorption spectroscopy.The results of this study have been published in Optics Letters.Aircraft eng...

    2024-03-09
    查看翻譯

  • Tsinghua University develops efficient and stable perovskite quantum dot deep red light devices

    Semiconductor quantum dots have the advantages of high quantum yield, narrow emission spectrum, and compatibility with solution processes. They have shown broad application prospects and enormous economic value in the field of optoelectronic materials and devices, and related research has won the Nobel Prize in Chemistry in 2023.Compared with traditional II-VI and III-V quantum dots (such as CdSe,...

    03-18
    查看翻譯