Español

Germany has developed direct laser welding technology to achieve adhesive free connection from fiber to chip

763
2023-08-22 14:51:18
Ver traducción

Recently, researchers and their partners from the Fraunhofer Institute for Reliability and Microstructure (IZM) in Germany announced the successful development of a laser welding technology that can efficiently fix optical fibers onto photonic integrated circuits (PICs) without the need for adhesive bonding.

This technology is developed in response to biophoton sensing technology, mainly utilizing a miniaturized photonic integrated circuit (PIC) system with highly stable fiber connections.

(Image source: Fraunhofer IZM)
In the past, adhesive was often used in fiber optic interconnections of photonic integrated circuits. However, in the long run, this solution will lead to the occurrence of optical degradation, ultimately resulting in optical transmission loss. The softness of the adhesive can cause the position of the component to change over time and create an interference point between the two layers of glass. As the adhesive ages, this can lead to signal attenuation and brittle connections.

Due to the different volumes of glass fiber and substrate, the heat capacity of the two parts to be joined is not equal, resulting in different heating and cooling behaviors. If there is no appropriate compensation for the difference, it may lead to deformation and cracks during the cooling process. To address this issue, the team used a separate adjustable laser to uniformly preheat the substrate, allowing the melting stage of the fiber and substrate to occur simultaneously.

The technology developed by this project is no longer limited to the experimental setup stage, and the system they developed is designed for industrial environments. The Fraunhofer Institute for Reliability and Microstructure (IZM) in Germany, in collaboration with Finicontec Service, implemented this technology process in automation systems and found that it has high repeatability and scalability. It is equipped with thermal process monitoring up to 1300 ℃, accurate to 1 μ M's positioning system, as well as imaging recognition process and control software.

The potential of high automation enables customers to use photonic integrated circuits (PICs) with maximum coupling efficiency. Industrial integration means a leap in the field of biophotonics applications, as well as quantum communication and high-performance photonics, "G ó mez said.

Source: OFweek

Recomendaciones relacionadas
  • Lameditech of South Korea was listed on the KOSDAQ exchange on the 17th

    On June 11, 2024, Korean laser medical equipment manufacturer Lameditech successfully completed its initial public offering and was listed on the KOSDAQ exchange on the 17th.Last month, its public offering price was fixed at 16000 Korean won. In this public offering, Lameditech issued a total of 1298000 shares, raising approximately 20.8 billion Korean won. Since Lameditech's debut on KOSDAQ, as o...

    2024-06-26
    Ver traducción
  • Trumpf announces four personnel changes

    Recently, global laser giant Germany's Trumpf announced four personnel changes, namely Claudio Santopietro as the head of intelligent factory consulting and automation, Kevin Cuseo as the head of software sales, Julian Schorpp as the product manager for automatic bending products, and Adam Simons as the head of additive manufacturing for Trumpf North America.According to relevant information, Clau...

    2024-11-26
    Ver traducción
  • Progress makes laser based imaging simpler and more three-dimensional

    a. b. Schematic diagram of PACTER system calibration and imaging program. BT, beam trap; DAQ, data acquisition unit; HWP, half wave plate; PBS, polarization beam splitter; ER, traverse the relay. The difference between the two modes is highlighted by a black dashed box. c. Schematic diagram of a single component ultrasonic transducer manufactured on ER. d. The ultrasound transducer detected 1D P...

    2023-12-05
    Ver traducción
  • Xi'an Institute of Optics and Fine Mechanics has made new progress in the research of intelligent optical microscopy imaging

    Recently, the State Key Laboratory of Transient Optics and Photonics Technology of Xi'an Institute of Optics and Fine Mechanics has made new progress in the research of intelligent optical microscopic imaging, and the research results were published online in the international high-level academic journal Opto Electronic Advances (IF: 15.3). The first author of the paper is Tian Xuan, a 2024 doctor...

    2024-09-09
    Ver traducción
  • Developing a concentration independent pressure sensing method for high-temperature combustion diagnosis

    Recently, a research group led by Professor Gao Xiaoming and Professor Liu Kun of the Chinese Academy of Sciences Hefei Institute of Physical Sciences developed a concentration independent pressure sensing method based on two-color laser absorption spectrum for high-temperature combustion diagnosis.The research findings are published in Optics Letters.Aircraft engines are developing towards high-t...

    2024-03-08
    Ver traducción