Exhibition Details
PHOTONICS 2024
EXPOCENTRE
Russia, 123100, Moscow, Krasnopresnenskaya nab., 14
26 March-29 March
JINSP: FC100
About Exhibition
The 2024 Moscow International Laser and Optoelectronics Exhibition is Russia's largest optics exhibition, certified by the International Exhibition Union (UFI). Since its inception, the exhibition has received strong support from the State Committee on Science and Technology of Belarus, the European International Optics Association, the German Industrial Technology Association, the Russian Chamber of Commerce and Industry, and the Moscow City Government.
Featured Product
At this exhibition, Jinsp exhibited a variety of products, including fiber optic spectrometers, pulsed lasers, Raman systems, OCT systems, and more. Among them, products such as K-linear OCT spectrometers, long-pulse Q-switched lasers, and beam profilers have attracted widespread attention due to their unique performance characteristics.
Jinsp’s ST830E spectrometer is specially designed for OCT systems, utilizing a unique optical path and implementing hardware-based equidistant wavenumber sampling. This enables direct FFT processing, significantly reducing data processing complexity and improving imaging speed. Additionally, the spectrometer's outstanding Roll-off performance allows for imaging at deeper levels.
Jinsp’s latest product, the long-pulse Q-switched solid-state laser, features a typical pulse width of 67ns, a repetition rate of 3kHz, a single pulse energy of 3mJ, and an exceptional beam quality with M2 less than 1.3. This laser offers unparalleled advantages in applications such as semiconductor processing, laser manufacturing, and scientific research. It can be utilized independently or as a laser seed source in conjunction with amplifiers. Additionally, this laser model supports multi-wavelength output.
Jinsp's newly launched BA1023 beam profiler not only analyzes the diameter and divergence angle of laser beams but also features beam contrast and ultra-Gaussian beam fitting functions. It allows for intuitive detection of beam position offsets and direct fitting of parameters for rectangular beams. Additionally, this analyzer includes a beam imaging feature, enabling imaging of the laser's irradiation position, making it a powerful tool for laser research endeavors.
Live Report
Post time: Apr-01-2024