简体中文

Shanghai Optics and Fine Mechanics Institute has made progress in the new holographic imaging technology of frequency domain direct sampling

1189
2025-03-20 11:16:50
查看翻译

Recently, a research team from the Aerospace Laser Technology and Systems Department of the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, proposed a new holographic imaging technology using frequency domain direct sampling. The relevant results were published in Optics Letters under the title of "Fourier inspired single pixel holography".

Digital holography is a technique that uses interference to record information about the optical field. Among them, off-axis digital holography is widely used in imaging, measurement, display, storage and other fields due to its ability to eliminate the influence of twin images in principle. Traditional off-axis digital holography uses an array detector to record holograms, and then selects the frequency spectrum related to the target light field. This imaging method records both the target image and redundant zero order images and twin images. In addition, due to the difficulty in preparing wide spectrum, high sensitivity, and high spatiotemporal resolution area array detectors, off-axis digital holography technology is also difficult to apply under extreme conditions such as special bands and low light.

This study is based on the mechanism of off-axis holography to separate redundant information in the spectral domain, combined with the characteristic of Fourier single pixel imaging technology that can obtain object spectra on demand. The hologram is encoded using a specific frequency stripe pattern, and the Fourier spectrum of the target light field is directly sampled by a high-sensitivity single pixel detector. Finally, the target light field information is obtained through inverse Fourier transform (Figure 1a, b). In addition, the research team intelligently designed encoding patterns and image enhancement models based on self coding architecture (Figure 1c), and used transfer learning techniques to reduce the required experimental data volume (Figure 1d). In the end, the research team successfully achieved imaging of phase type objects at a maximum sampling rate of 7.5% (Figure 2). This study combines holography, correlation imaging, and artificial intelligence organically, providing new ideas for efficient phase detection in special bands and low light conditions. It is expected to be applied in fields such as scattering imaging and low light imaging.

Figure 1. (a) Off axis hologram generation process; (b) The process of modulating off-axis holograms using learned mask selection patterns and reconstructing objects; (c) The joint optimization network structure used for pre training; (d) Fine tuning process using experimental data.

Figure 2. (a) Experimental setup diagram; (b) The original experimental results at different sampling rates and the experimental results processed by neural networks; (c) Phase truth, phase comparison of network input and network output objects at a sampling rate of 7.5%.

Source: opticsky

相关推荐
  • Sales and order volume of Deutsche Bahn Group have decreased

    Recently, TRUMPF, a leading global provider of machine tools and laser technology solutions, released preliminary data for the 2023/24 fiscal year: compared to the previous fiscal year, sales decreased by about 4% year-on-year to 5.2 billion euros; The order amount decreased by 10% to 4.6 billion euros. The Tongkuai Group ended its 2023/24 fiscal year on June 30, 2024, with a decrease in both s...

    2024-07-22
    查看翻译
  • Narrow band tunable terahertz lasers may change material research and technology

    A group of researchers from the Max Planck Institute for Material Structure and Dynamics in Germany explored the effect of manipulating the properties of quantum materials far from equilibrium through customized laser drivers. They found a more effective method to create previously observed metastable superconducting states in fullerene based materials using lasers.By tuning the light source to 10...

    2023-11-21
    查看翻译
  • Launching the world's strongest laser at a cost of 320 million euros

    Beijing, April 1st (Reporter Liu Xia) - The world's most powerful laser has been activated recently. On March 31st, the Physicist Organization Network reported that the system can enable laser pulses to reach a peak of 10 terawatts (1 terawatt=100 terawatts=1015 watts) within 1 femtosecond (1000 trillions of a second), which is expected to promote revolutionary progress in multiple fi...

    2024-04-03
    查看翻译
  • Huagong Technology and Far East Control signed a strategic cooperation agreement to collaborate on the application and digital transformation and upgrading of "laser+intelligent manufacturing"

    On October 16th, Huagong Technology signed a strategic cooperation agreement with Far East Holdings Group Co., Ltd. The two industry leaders will engage in deep cooperation in multiple fields to promote the development and innovation of their businesses. Both parties will work together to enhance the application of "laser+intelligent manufacturing" and the level of digital transformation and upgra...

    2023-10-18
    查看翻译
  • Making Infrared Light Visible: New Equipment Utilizes 2D Materials to Convert Infrared Light

    Infrared imaging and sensing technology can be used in various fields, from astronomy to chemistry. For example, when infrared light passes through a gas, sensing changes in light can help scientists identify specific properties of the gas. The use of visible light may not always achieve this sensing.However, existing infrared sensors are bulky and inefficient. In addition, due to the use of infra...

    2024-06-24
    查看翻译