Frequency Laser Standard, LJSC-532F

LJSC-532F is a high-precision frequency laser standard for green lasers with a wavelength of 532 nm, designed for scientific, metrological, and laboratory applications. The device is used for frequency comparison, calibration, and verification of laser system performance, ensuring high accuracy, stability, and repeatability of results. Thanks to its automated operation, compact construction, and ease of use, LJSC-532F is an effective solution for high-precision measurements, laser spectroscopy, and other applications where emission stability is critical.

The system features automatic absorption peak detection and graphical display of results. The laser standard fully complies with CIPM 97 “Mise en pratique” recommendations for metrological realization and can be used both as a primary laser standard for meter realization and as a calibration reference for stabilized lasers.

Main features

• Wavelength: 532 nm.
• Frequency repeatability: 5 × 10^-11.
• Frequency stability: 8 × 10^-12.
• Compliance with international standards: full compliance with CIPM 97 “Mise en pratique” recommendations.
• Automation: automatic tuning and locking.
• Construction: compact and robust design for laboratory and field use.

Main capabilities and applications

• Calibration and comparison of lasers operating at 532 nm.
• Use as a primary laser standard for meter realization.
• Application as a calibration reference for stabilized lasers.
• Use in interferometry, spectroscopy, and other high-precision laboratory measurements.
• Suitable for metrology laboratories, research centers, universities, and industrial quality control departments.
• Educational and demonstration use in laser optics, photonics, and metrology.

Advantages

• High accuracy and stability: provides a reliable reference for calibration, testing, and comparison of laser systems.
• Consistency and repeatability: especially important for scientific research and metrological applications.
• Ease of use: automatic tuning and graphical display simplify operator work.
• Versatility: suitable for both laboratory research and industrial quality control.
• Educational value: can be used in universities and training laboratories for hands-on experience with precision laser systems.
• Industrial reliability: helps maintain required laser equipment performance and product compliance with technical specifications.