Português

A new type of all-optical intelligent spectrometer

865
2024-07-22 11:54:26
Ver tradução

Recently, Professor Xu Tingfa's research team from the School of Optoelectronics at Beijing Institute of Technology and Assistant Professor Lin Xing's team from Tsinghua University jointly developed a new type of Opto Intelligence Spectrometer (OIS). The device is based on diffractive neural network technology and achieves precise spectral reconstruction under spatially coherent or spatially incoherent light sources, with significant advantages of low energy consumption and light speed processing. The relevant achievements have been published under the title "Opto intelligence Spectrometer Using Diffractive Neural Networks" in the top international optical journal "Nanophotonics" (China University of Science and Technology, Class 1, Top Journal).

Nanophotonics, published by Walter de Gruyter in Germany, focuses on exploring cutting-edge advances in the interaction between light and matter, as well as their fundamental principles and applications. The first authors of this paper are Wang Ze, a master's student at Beijing Institute of Technology, and Chen Hang, a postdoctoral fellow at Tsinghua University. The corresponding authors are Associate Researcher Li Jianan, Professor Xu Tingfa, and Assistant Professor Lin Xing.

The newly developed all optical intelligent spectrometer (OIS) converts the spectral amplitude of the input light source into the detection intensity on the output plane, and uses multiple detectors to accurately perceive the intensity of different spectral bands. By establishing a mapping relationship between input and output and optimizing the phase distribution of the modulation layer using two mean square error (MSE) loss functions, high contrast output intensity distribution and accurate reconstruction of the input light source spectrum were achieved. The principle is shown in Figure 1.

Figure 1. Architecture of all-optical intelligent spectrometer based on diffractive neural network.

The experimental results show that OIS exhibits excellent spectral reconstruction capability under both spatially coherent and spatially incoherent light sources (see Figure 2). In addition, the application testing of the device on the real-world dataset CAVE shows that it has good generalization ability and practical application potential (see Figure 3).

Figure 2. OIS spectral reconstruction results with a spectral resolution of 10nm. Left image: Randomly generated spectral amplitude distribution and spectral reconstruction results. Right figure: Intensity distribution of the output plane.

Figure 3. Spectral reconstruction results of OIS on the real-world dataset CAVE, with a spectral resolution of 10nm.
This study has overcome the long-standing challenges of traditional spectral reconstruction architectures, such as bulky optical components, complex electronic reconstruction algorithms, and limited flexibility. It can serve as a basic unit for array layout, laying the foundation for full light speed and high-quality spectral imaging.

Source: Beijing Institute of Technology

Recomendações relacionadas
  • LiDAR solutions provider Cepton acquired by KOITO

    On July 29, 2024, Cepton, a provider of high-performance LiDAR solutions, announced the signing of the final agreement for its acquisition, making it the acquiring company's subsidiary in the United States.Image source: CeptonAccording to the agreement, the acquirer is the internationally renowned automotive lighting giant KOITO, which was established in 1915 and has a history of over a hundred ye...

    2024-08-01
    Ver tradução
  • The semiconductor laser market is expected to reach $5.3 billion by 2029

    Nowadays, laser technology is widely used in various traditional and emerging fields, including optical communication, material processing, consumer equipment, automotive sensing and lighting, display technology, medical applications for treatment and diagnosis, as well as aerospace and defense.Especially in the semiconductor laser market, it is expected to grow from $3.1 billion in 2023 to $5.2 b...

    2024-12-03
    Ver tradução
  • Scientists at St. Andrews University have made significant breakthroughs in compact laser research

    Scientists at St. Andrews University have made significant breakthroughs in compact laser research after decades of hard work.Laser is widely used in fields such as communication, medicine, measurement, manufacturing, and measurement around the world. They are used to transmit information on the internet, for medical purposes, and even in facial scanners on mobile phones. Most of these lasers are...

    2023-10-04
    Ver tradução
  • Ultra short pulse laser technology shines a sword, winning 3.5 million euros in financing

    Recently, Italian startup Lithium Lasers announced that the company has successfully raised 3.5 million euros in ultra short pulse laser technology.This company, founded in 2019, focuses on developing an ultra short pulse laser (USPL) called FemtoFlash, which is aimed at multiple industries such as aerospace, healthcare, automotive, and consumer electronics, particularly suitable for material proc...

    2024-04-26
    Ver tradução
  • 20 million dollars! Undersea fiber optic agreement reached, fully operational by 2026

    Recently, Confluence Networks LLC has announced a long-term partnership agreement with Laser Light Communications Inc., a developer and provider of software controlled optical network services.According to the agreement, Laser Light will adopt Confluence-1 submarine fiber optic network, which Confluence Networks is about to launch, as the core part of its global network. The protocol will last for...

    2024-05-24
    Ver tradução