日本語

Showcasing the world's fastest photonics alignment system for SiPh chips on Photonics West

899
2024-01-19 14:41:32
翻訳を見る

With its proprietary fast multi-channel photon alignment algorithm and professional high-precision machinery, PI helps customers improve production efficiency to participate in the rapidly growing silicon photonics market. Over the past decade, PI has been continuously expanding its range of automatic photon alignment engines and will launch new systems at both ends of the spectrum in this year's event. A new modular entry-level system based on mechanical platforms will be demonstrated, but with high-performance controllers and high-speed air bearing systems for testing and assembly applications, which require maximum throughput, zero wear, and maintenance.

 


At present, the global demand for SiPh components is rapidly increasing, and leading market research companies unanimously predict that by 2030, the SiPh component market will double to around $10 billion. Therefore, productivity, output, and manufacturing costs are receiving increasing attention. One of the main cost drivers is the precise alignment of photonic components between optical fibers and chips. This task plays a crucial role in quality control related to production and assembly of fiber optic coupling. According to the complexity of the final product, alignment must be repeated up to twenty times during the manufacturing process.

The time required for this is crucial for the throughput and cost of SiPh production, and the seconds saved per alignment during production operations may be worth millions of dollars. By leveraging the proprietary algorithms and mechanisms of PI, calibration time can be reduced by up to 99% compared to traditional methods.

In addition to well-known solutions such as the F-712 alignment series, a new F-142/F-143 alignment system based on air bearings and an entry-level F-836 system are now available.

In addition to the photonics alignment engine, PI will also showcase wafer platforms for the semiconductor industry, actuators for quantum computing optical paths, fast focusing platforms for laser applications, nanopositioning and nanofocusing devices for super-resolution microscopes, and a novel method based on piezoelectric ceramics to improve the throughput of laser micro hole drilling, And a fast steering mirror for free space optical laser communication on Earth and LEO satellites.

The modular architecture of PI supports mixing motion and drive types in a system, resulting in optimal configuration of each axis in terms of cost and performance. Control is achieved through the EtherCAT based scalable controller of ACS under PI Group.

Source: Laser Net

関連のおすすめ
  • Zygo showcases 3D optical metrology instruments on Space Comm

    Zygo Corporation, a business unit of AMETEK, announced that it will be showcased at the D28 booth of the Space Comm Expo held in Farnborough, UK from March 6th to 7th this year.Space Comm showcases the end-to-end supply chain of products, services, and applications that provide information and technological development for commercial aerospace enterprises, governments, and defense organizations, p...

    2024-03-01
    翻訳を見る
  • Researchers Obtaining Scientific Returns from Raman Spectroscopy for External Bioexploration Using Lasers

    We investigated the potential of laser selection in a wide optical range from ultraviolet to visible light, and then to infrared (excitation wavelengths of 325, 532, 785, and 1064 nm), in order to combine and analyze extreme microorganisms related to Earth (such as Cryptomeria elegans, cold floating nematodes, and circular green algae), carbon water compound molecules, as well as simulated mineral...

    2023-10-23
    翻訳を見る
  • Exail acquires optical company Leukos

    Recently, exail (formerly iXblue) announced the acquisition of Leukos, an optical company specializing in providing advanced laser sources for metrology, spectroscopy, and imaging applications.Leukos was founded by the French XLIM Institute (a joint research department of the French National Academy of Sciences and the University of Limoges), with over 20 years of professional experience in the re...

    01-13
    翻訳を見る
  • A new type of flexible reflective mirror can improve the performance of X-ray microscopy

    A research team in Japan has designed a flexible and shapable X-ray reflector, achieving significant accuracy and higher stability at the atomic level.This new technology, developed by Satoshi Matsuyama and Takato Inoue from the Graduate School of Engineering at Nagoya University, in collaboration with the Japanese Institute of Physical and Chemical Research and JTEC Corporation, improves the perf...

    2024-05-06
    翻訳を見る
  • Outlook - Future of miniaturized lasers

    The disruptive miniaturization design of fiber lasers is feeding back into the handheld laser welding market. The handheld laser welding that enters the trunk is bathed in the luster of black technology, making traditional argon arc welding and electric welding tremble.In the early years, argon arc welding was the most commonly used thin plate welding method among our ancestors, but its drawbacks ...

    2023-12-19
    翻訳を見る