Português

Progress in Theoretical Research on the Mechanism of Liquid Terahertz Wave Generation by Precision Measurement Institute

950
2024-03-22 15:11:22
Ver tradução

Terahertz waves have significant application value in communication and imaging. The nonlinear interaction between strong field ultrafast laser and matter is one of the important ways to generate terahertz waves. The experimental and theoretical research related to terahertz generation media such as plasma, gas, and crystal is relatively sufficient. However, liquid water is a strong absorbing medium for terahertz waves, and there have been no reports of its generation of terahertz waves. In 2017, experiments found that when the thickness of a liquid film or the diameter of a liquid beam decreased to the micrometer level, the radiation of terahertz waves was greater than absorption. This opens up a new direction in the study of liquid terahertz waves.

In recent years, there have been experimental reports in the field of liquid terahertz waves, but many phenomena observed in experiments are different from the results of other media. For example, a monochromatic laser field can effectively generate liquid terahertz waves, while a gas medium requires a specific phase difference of a bicolor laser; The yield of liquid terahertz waves is directly proportional to the energy driving the laser, while in gas media it is a square relationship; The yield of liquid terahertz waves increases with the increase of laser pulse width within a certain range, while the opposite is true for gas media; Under the drive of dual color laser, non modulated signals appear in liquid terahertz waves, but similar signals are not observed in gas media. Theoretical research on complex and disordered liquid phase systems has always been a challenge, and the above phenomena are difficult to explain with existing theories. Researchers can only explain some macroscopic experimental results under high light intensity based on previous plasma models and interface effects.

Recently, Bian Xuebin, a researcher at the Institute of Precision Measurement Science and Technology Innovation of the Chinese Academy of Sciences, and Li Zhengliang, a doctoral candidate, proposed a displacement current model that generates liquid terahertz waves, which can systematically explain a series of anomalies observed in the above experiments. The physical image of the micro mechanism model is shown in the figure: the disordered structure of the liquid localizes the electron wave packet, and the energy of the outer electrons of different molecules is affected by the environment and moves. Under the action of strong field lasers, the outer electrons of different molecules undergo transitions, generating displacement currents in asymmetric systems. The energy difference of these transitions is in the terahertz energy region, which in turn radiates terahertz waves. Meanwhile, this work demonstrates that the quantum effects of atomic nuclei play a crucial role and predicts that terahertz radiation can be used to study the isotopic effects of liquids.

The above achievements are another theoretical advancement of Bian Xuebin's team in the field of liquid phase strong field ultrafast dynamics research, following the high-order harmonic statistical fluctuation model. The related research findings are titled Terahertz radiation induced by shift currents in liquids and published in the Journal of the National Academy of Sciences (PNAS) in the United States. The research work was supported by the National Key Research and Development Program, the National Natural Science Foundation of China, and the Chinese Academy of Sciences Youth Team Program for Stable Support in Basic Research.

Schematic diagram of liquid terahertz wave generation

Source: OFweek

Recomendações relacionadas
  • Measurement of spectral line intensity of NO2 near 6.2 microns using a quantum cascade laser spectrometer

    Recently, a joint research team from the Key Laboratory of Optoelectronic Information Acquisition and Processing of Anhui University, the Laboratory of Laser Spectroscopy and Sensing of Anhui University, and Ningbo Haier Xin Optoelectronic Technology Co., Ltd. published a paper titled "Measures of line strengths for NO2 near 6.2" μ Research paper on using a quantum cascade laser spectrometer.Re...

    2024-01-02
    Ver tradução
  • Progress made in the research and development of high-performance electrically pumped topology lasers by the Institute of Semiconductors, Chinese Academy of Sciences

    Topological laser (TL) is a laser device designed and manufactured using the principles of topological optics, which can produce a robust single-mode laser and is an ideal light source for future new optoelectronic integrated chips. Electrically pumped topology lasers have become a research hotspot due to their small size and ease of integration, but topology lasers based on electrical injection a...

    2024-06-06
    Ver tradução
  • Overview: High throughput preparation of alloy composition design in additive manufacturing

    Researchers from the New Materials Technology Research Institute of Beijing University of Science and Technology and the Beijing Modern Transportation Metal Materials and Processing Laboratory reported a review of high-throughput preparation of alloy composition design in additive manufacturing. The relevant research is titled "High throughput preparation for alloy composition design in additive m...

    2024-07-08
    Ver tradução
  • How Many Laser Enterprises are There in China?

     China's laser industry began in the 1980s, when the first private laser enterprise, Chutian Industrial Laser, was founded in 1985 by Sun Wen, an alumnus of Huazhong University of Science and Technology. In the 1990s, some young people with dreams began to make their mark in the laser industry. In 1995, Gao Yunfeng, 29, rented an apartment in Huaqiangbei with a deposit of 400,000 Hong Kong dollar...

    06-30
    Ver tradução
  • SPIE Optics and Photonics 2025: Kyle Myers from Puente elected as SPIE Chair

    The founder and principal of Puente Solutions Kyle J. Myers has been elected to serve as the 2026 Vice President of SPIE, the international society for optics and photonics. With her election, Myers joins the SPIE presidential chain. She will serve as president-elect in 2027, and as the Society’s president in 2028. Newly-elected: Myers, McNally, Rubinsztein-Dunlop, Wade, Medicus, and ErdmannTh...

    08-08
    Ver tradução