한국어

First time! Significant progress has been made in low repetition rate fully polarization maintaining nine cavity fiber lasers

851
2024-05-07 16:45:29
번역 보기

Recently, the research team of the Aerospace Laser Technology and System Department of the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, reported for the first time a low repetition frequency full polarization maintaining 9-shaped cavity fiber laser at 915 nm. The relevant research results were published in Optics Express under the title "Low repetition rate 915 nm figure-9 ultrafast laser with all fiber structure".

Laser with a wavelength around 900 nm is highly favored in the field of optical measurement due to its high responsiveness on silicon-based detectors. The low repetition rate fiber laser in this band can effectively reduce distance ambiguity in Time of Flight (TOF), and has the characteristics of good beam quality, compact structure, and long-term stability, making it an ideal light source for space detection. However, due to the strong dispersion and nonlinear effects of single-mode fibers, it is difficult for lasers to achieve single pulse operation in long fiber cavities. Therefore, the repetition frequency of traditional mode-locked fiber lasers is usually limited to tens to hundreds of MHz.

In response to the above issues, researchers have proposed a low repetition rate fully polarized nine cavity fiber laser with a central wavelength of 915 nm. By designing and optimizing the laser structure, high-energy single pulse output was achieved at low repetition rates. The optimized seed was amplified in one stage to obtain a pulse output with a pulse width of 15.2 ps and a single pulse energy of 4.7 nJ at a repetition frequency of 3.1 MHz. The mode locking performance of the laser has been confirmed through long-term power and spectral stability tests. This compact and long-term reliable fiber laser is a promising light source for future space laser ranging.

This work was supported by the Youth Innovation Promotion Association of the Chinese Academy of Sciences, the National Natural Science Foundation of China, and the Shanghai Natural Science Foundation.

Figure 1. Experimental setup diagram of a 915 nm low repetition rate fully polarization maintaining nine cavity fiber laser

Figure 2. Long term stability testing of output power and spectrum, and output characteristics of pulses in frequency and time domains

Source: Yangtze River Delta Laser Alliance

관련 추천
  • Research on High Strength and High Toughness TC11 Titanium Alloy with Multi Laser Coaxial Wire Feeding and Directed Energy Deposition

    Researchers from Huazhong University of Science and Technology, AVIC Xi'an Aircraft Design and Research Institute, AVIC Xi'an Aircraft Industry Group Co., Ltd., Shanghai Aerospace Equipment Manufacturing General Factory Co., Ltd., State Key Laboratory of Aircraft Control Integration Technology, Beijing Xinghang Electromechanical Equipment Co., Ltd. and Nanjing Yingigma Automation Co., Ltd. reporte...

    05-14
    번역 보기
  • 2D photoelectric neuron array can achieve broadband and low loss optical nonlinearity accessible to ambient light

    Light can calculate functions during propagation and interaction with structured materials, with fast speed and low energy consumption. The use of all optical neural networks for general computing requires an optical activation layer with nonlinear dependence on the input. However, existing optical nonlinear materials either have slow speeds or very weak nonlinearity at the level of natural light ...

    2024-03-20
    번역 보기
  • Implementing and studying non Hermitian topological physics using mode-locked lasers

    A mode-locked laser is an advanced laser that can generate very short optical pulses with durations ranging from femtoseconds to picoseconds. These lasers are widely used for studying ultrafast and nonlinear optical phenomena, but they have also been proven to be applicable to various technological applications.Researchers at the California Institute of Technology have recently been exploring the ...

    2024-03-27
    번역 보기
  • BluGlass successfully raised $5.87 million to accelerate GaN laser production and delivery

    Recently, BluGlass, a leading global semiconductor development company, successfully completed its stock purchase plan (SPP) and raised $5.87 million in funds (excluding costs). This SPP provides eligible shareholders with the opportunity to subscribe to up to $100000 in new shares of BluGlass at a discounted price of $0.037 per share, along with free additional options. This initiative has gained...

    2024-04-12
    번역 보기
  • Germany's leading optoelectronics industry (Jenoptik) in the first half of the gold over 4.2 billion

    On August 9, local time, Germany's leading optoelectronics company Jenoptik released its 2024 second quarter interim financial results forecast. The financial data show that the company in the challenging market environment still shows strong growth momentum.In the first half of the year, Jenoptik achieved significant growth in revenue and earnings before interest, taxes, depreciation and amortiza...

    2024-08-15
    번역 보기