Outlook - Future of miniaturized lasers

Recently, the team of Yang Tao-Yang Xiaoguang, a researcher at the Key Laboratory of Materials Science of the Institute of Semiconductors of the Chinese Academy of Sciences, and Lu Dan, a researcher, together with Ji Chen, a professor at the Zhijiang Laboratory of Zhejiang University, have made important progress in the research of high-power, low-noise quantum dot DFB single-mode lasers.Distribut...

The pump source, gain material, and resonant cavity are the three elements that make up a laser. Due to the selective effect of the resonant cavity on the lasing frequency, multi longitudinal mode operation is one of the characteristics of fiber lasers based on traditional resonant cavity structures, manifested as periodic beat peaks in the radio frequency (RF) spectrum and periodic fluctuations i...

Recently, Markets And Markets released a five-year assessment report on the global laser industry. According to the report, the global laser technology market is expected to reach $20 billion by 2024 and is projected to reach $29.5 billion by 2029, with a compound annual growth rate of 8.0% during the forecast period.Global Laser Technology Market ForecastThe reasons for market growth include: the...

Physicists have been working hard to improve the accuracy of atomic clocks, which are the most precise timing devices currently available. A promising way to achieve higher accuracy is to utilize spin squeezed states in clock atoms.Spin squeezed states are entangled quantum states in which particles work together to counteract their inherent quantum noise. These states provide incredible potential...

Scientists at the Cavendish laboratory have discovered the spin coherence of hexagonal boron nitride (hBN) under normal conditions, providing new prospects for the application of quantum technology.Researchers at Cavendish Laboratory have found that a single "atomic defect" in a material called hexagonal boron nitride (hBN) maintains spin coherence at room temperature and can be manipulated using ...