Nederlands

Shanghai Microsystems Institute has developed a high-speed photon detector with distinguishable photon numbers

938
2024-07-12 11:14:40
Bekijk vertaling

Recently, Li Hao and You Lixing's team from the Chinese Academy of Sciences Shanghai Institute of Microsystems and Information Technology developed an ultrahigh speed, photon number resolvable optical quantum detector with a maximum count rate of 5GHz and a photon number resolution of 61 by using the sandwich structure superconducting nanowires and multi wires working in parallel. The related research results, titled "Superconducting single photon detector with speed of 5 GHz and photon number resolution of 61", were published online in Photonics Research and were selected for editorial recommendation.

In recent years, superconducting nanowire single photon detectors have been widely used in quantum communication, optical quantum computing, and quantum mechanics principle verification due to their high efficiency, low dark count rate, and excellent time resolution.

The team has developed a highly efficient, ultra high speed, and high photon resolution superconducting detector integrated system. To ensure the portability and reliability of the detection system, the project has built a cooling integrated system based on a GM small refrigeration mechanism. The system supports 64 electrical channels and has a minimum operating temperature of 2.3 K. The detector chip integrates 64 superconducting nanowires on a distributed Bragg reflector, achieving both improved photon absorption and detection speed. After characterization, the yield of nanowire preparation was 61/64, and the system detection efficiency reached 90% at a wavelength of 1550 nm. The maximum counting rate was 5.2 GHz, and the counting rate was 1.7 GHz when the detection efficiency decreased by 3dB. The photon number resolution was 61. The performance indicators of this detection system are expected to support applications such as deep space laser communication, high-speed quantum communication, and basic quantum optical experiments.

The research work was supported by the Science and Technology Innovation 2030 Major Project, the National Natural Science Foundation of China, the Youth Innovation Promotion Association of the Chinese Academy of Sciences, and the "Sailing Plan" of Shanghai.


Device structure (a), superconducting nanowires (b), device packaging (c), and refrigeration system (d)

Source: Shanghai Institute of Microsystems and Information Technology, Chinese Academy of Sciences

Gerelateerde aanbevelingen
  • RAISE3D launches its innovative 3D printer series and filament series

    3D printer manufacturer Raise3D has launched a new Fused Manufacturing (FFF) 3D printer series called Pro3 HS and a supercore filament series.The Pro3 HS series is equipped with a motion control system, which improves speed, accuracy, and simplifies the manufacturing of large composite components. Raise3D's Hyper Core filament has a dense fiber core and well arranged carbon fibers, which can enha...

    2024-06-11
    Bekijk vertaling
  • Fiber coupled single photon source meets the requirements of quantum computing

    Due to the ability of quantum computers to crack many encryption methods used in current communication systems, the security of our current communication systems is facing threats. To address this crisis, scientists are developing quantum communication systems that utilize quantum mechanics to provide stronger security. A key component of these systems is the single photon source. In order for qua...

    10-27
    Bekijk vertaling
  • New type of femtosecond laser: used for broadband terahertz generation and nonlinear wafer detection

    Recently, HüBNER Photonics, the leading manufacturer of high-performance lasers, has launched the latest member of the VALO femtosecond series - VALO Tidal. This laser not only represents a major leap in the fields of imaging, detection, and analysis, but also demonstrates the infinite possibilities of laser technology with its outstanding performance.The VALO Tidal femtosecond laser typically sho...

    2024-06-26
    Bekijk vertaling
  • 43 seconds! Completion of laser welding of a new energy vehicle body

    March 8, in the three sessions of the 14th National People's Congress, the second “representative channel” focused on interviews, the National People's Congress, the party secretary of HGTECH Science and Technology, Chairman of the Board of Directors Ma Xinqiang, said in response to a reporter's question, in order to crack the “strangle  “technical problems, HGTECH over the years in the field of h...

    03-11
    Bekijk vertaling
  • Shanghai Optics and Machinery Institute has made progress in femtosecond fiber lasers based on twisted Sagnac interferometer mode locking

    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, proposed a torsional Sagnac interferometer and applied it to the fiber laser system, realizing mode locking self starting and pulse shaping. The relevant research achievements were published in the Journal of Lightwave Technology u...

    2024-04-22
    Bekijk vertaling