Sichuan University

"LaSense Technology Ultra Low Noise Laser Driver is one of our preferred devices for accurate acquisition of molecular absorption spectra. Its precise temperature control and ultra-low electronic noise make it possible to detect spectra with high precision and help us expand the number of gas parameters that can be resolved, from the original temperature and component concentration to the current level. Simultaneous measurements of temperature, component concentration, pressure, and many more spectral parameters are now available, providing excellent technical support for our TDLAS multi-parameter measurement solution."

Changguang Institute (Chunguang Institute, Dean of Chinese Science)

"As a fundamental component of precision optical experiments, LaSense's laser driver performs well in our optical and spectroscopy experiments. Its low noise design effectively reduces the experimental background noise and greatly improves the detection sensitivity. The modular interface is also very friendly and can be easily integrated into our optical systems."

Wuhan University of Technology

"In laser absorption spectroscopy experiments, we need easy-to-use and portable distributed feedback laser drivers for system construction and teaching demonstration experiments. For students with non-electrical background, LaSense controller reduces the tedious welding line, limit setting, testing and other operations, making the experiment efficiency is greatly improved."

Harbin Institute of Technology

"When performing precision spectroscopy experiments at low temperatures, we found that LaSense Ultra Low Noise Laser Driver was able to maintain stable output performance and impressive temperature control accuracy. This product simplifies commissioning in our lab and supports high-quality data acquisition."

LaSense Technology's Multi-Path Gas Cell features a fiber-optic plug-and-play design that significantly enhances the laser absorption signal of gas molecules. Its unique long-range structure enhances the gas absorption effect, making it suitable for highly sensitive trace gas detection. The cell is seamlessly connected to the laser light source and the spectral detection system with high gas tightness and low leakage rate to ensure the stability of the experimental environment. Whether in air pollution monitoring, environmental science research, or chemical analysis, the Multi-Path Gas Cell provides excellent signal gain and accurate concentration measurements, enabling researchers to obtain reliable data in low concentration gas environments.

Chongqing University

“The advanced design concept of the Multi-Path Gas Cell provided by LaSense Technology greatly simplifies the process of adjusting the optical path for our spectroscopic experiments, while at the same time ensures a significant enhancement of the absorption signal, which effectively improves the detection accuracy of the spectroscopic absorption experiments, and provides an important assistance for our scientific research.”

Beijing Jiaotong University

“LaSense's Multi-Path Gas Cell performed very well in our experiments. The plug-and-play design of the fiber optic interface eliminates the tedious process of optical path debugging, while the extremely low leakage rate ensures the stability of the gas environment for long-time experiments, which is especially suitable for atmospheric gas research.”

Hefei Institute of Materials Science

“In atmospheric chemistry research, trace gas detection requires extremely high sensitivity. LaSense's Multi-Path Gas Cell helps us to significantly improve the signal strength, and with the long optical range and good sealing, the detection results are more accurate, which provides a strong guarantee for our research.”

LaSense Technology's Gas Dispenser (Automatic Gas Mixing System) is a high precision gas proportioning device designed for scientific research and industrial applications. It is capable of accurately controlling the concentration of multi-component gases and supports a concentration range covering three orders of magnitude. The gas dispenser supports real-time gas concentration adjustment to meet the simulation needs of complex gas environments. Its high-precision mass flow control system ensures the consistency and reliability of gas mixing, which is widely used in gas analysis, environmental monitoring, hydrogen production and other experiments. Through automated gas distribution control, users can efficiently and accurately perform multi-gas configuration, thus optimizing experimental conditions, saving manual operation time and improving work efficiency.

Tsinghua University

“LaSense's automated gas mixing system has revolutionized the efficiency of our experiments with its high-precision gas concentration control capability. Whether it is the precise proportioning of multi-component gases or the real-time dynamic adjustment of gas concentration, LaSense's gas dispenser has performed reliably and is ideal for complex gas experiments.”

The Chinese University of Hong Kong

“In laser absorption spectroscopy experiments, we need to accurately configure the concentration of multi-component gases, and LaSense Technology's gas dispenser provides us with a flexible and convenient solution. Its automation and high-precision operation reduces human errors and makes the experimental data more stable and credible.”