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Solar Laser Systems, a manufacturer of precision laser instrumentation, is featured on GoPhotonics for its portfolio of spectrometers, wavelength meters, monochromators, and laser systems engineered for photonics, spectroscopy, and laser measurement applications. The company develops optical instrumentation designed to support wavelength characterization, spectral analysis, laser diagnostics, and optical research across visible, near-infrared, and infrared spectral regions. Its offerings are designed for laboratory, scientific, and industrial environments requiring reliable optical measurement performance.

S90-IR: Compact Infrared Spectrometer for NIR Spectroscopy Applications

The S90-IR is a compact high-sensitivity spectrometer designed for fluorescence, reflection, transmittance, and photometric measurements in the near-infrared spectral range. It uses a linear InGaAs image sensor and supports spectroscopic applications between 780 nm and 1700 nm, with a spectral resolution ranging from 1 to 4.6 nm. The spectrometer features a 16-bit A/D resolution, 512-pixel sensor, and an exposure time from 8.2 ms to 0.7 s. Equipped with USB connectivity, SMA-905 fiber optic input, and BNC-58 connector support, the S90-IR is intended for laser radiation registration and laboratory-based optical measurements.

FX Series: Yb-Doped Femtosecond Solid-State Laser System

The FX Series is a Yb-doped femtosecond solid-state pulsed laser that operates at wavelengths from 1030 nm to 1040 nm. Based on Yb:KYW crystal technology, the laser delivers output power from 1 W to 8 W, pulse energies from 15 nJ to 100 nJ, and a pulse repetition rate of 70 MHz, with pulse durations of less than 200 fs. The system provides ±1% power stability and operates in a TEM₀₀ transverse mode. Designed as an integrated laser head with control unit, the FX-Series is suited for femtosecond spectroscopy, nonlinear spectroscopy, nonlinear optics, multiphoton microscopy, terahertz generation and detection, and high harmonics generation.

SHR: Optical Wavelength Meter for Broad-Spectrum Laser Measurement

The SHR optical wavelength meter is designed for wavelength measurement from 190 nm to 1100 nm and supports both continuous-wave and pulsed lasers. It provides wavelength accuracy of ±3 pm and supports measurement in nanometers and picometers. The wavelength meter features USB interfacing, compatibility with SMA-905 and BNC-58 connectors, and multimode fiber input. With a compact form factor, the SHR is designed for laser wavelength measurement applications across UV, visible, and infrared spectral bands.

MSA-130: Compact Monochromator for Spectral Selection

The MSA-130 is a compact monochromator designed for wavelength selection and spectral isolation in optical measurement systems. Based on a 130 mm focal length optical design, the monochromator is engineered to provide controlled wavelength tuning for spectroscopy, detector characterization, and optical filtering applications. It supports operation across a broad spectral range depending on the selected diffraction grating configuration, enabling flexibility for different laboratory and research requirements.

The monochromator incorporates a precision grating rotation mechanism for accurate wavelength positioning and controlled spectral separation. Its compact mechanical structure enables straightforward integration into photonics setups while maintaining stable optical alignment during operation. The system supports interchangeable gratings, allowing users to optimize spectral performance based on wavelength range and resolution requirements. Designed for laboratory and scientific environments, the MSA-130 is suitable for spectral filtering, light-source conditioning, detector testing, and optical research applications.

S150: Spectrometer for Optical Spectral Measurements

The S150 spectrometer is developed for optical spectral measurements requiring stable and repeatable spectral acquisition in scientific and photonics environments. Engineered for spectroscopic analysis and optical diagnostics, the instrument supports detailed wavelength-dependent measurements across configured spectral regions, making it suitable for applications involving laser characterization, emission analysis, absorbance measurements, and optical diagnostics.

The spectrometer is designed with an optical configuration intended to support reliable spectral registration and measurement consistency. Its architecture enables accurate spectral acquisition while supporting integration into laboratory-based experimental setups and optical measurement systems. Built for research and industrial applications requiring dependable optical analysis, the S150 is suited for spectroscopy, photonics development, and precision optical measurement tasks.

With its portfolio of spectrometers, wavelength meters, monochromators, and femtosecond laser systems, Solar Laser Systems continues to provide instrumentation for spectroscopy, wavelength measurement, and laser diagnostics. By combining compact optical architectures with precision measurement capabilities, the company supports scientific research, photonics development, and laboratory-based optical characterization applications.

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