Designed for in-situ optical characterization under controlled temperatures, our optical heating and cooling stage are deployed in materials science, semiconductor research, optoelectronics, nanotechnology, biophotonics, and geology. They support real-time observation of optical properties—including microscopy, fluorescence, Raman, refractive index, and luminescence efficiency—with precise thermal management.

Capable of spanning 4K to 1700°C, the series integrates multiple thermal control methods: LHe/LN₂ cooling, TEC, resistive heating, IR heating, and laser heating—tailored to specific temperature targets and applications.

SDKs (LabVIEW, C#, Python) are provided for custom automation and system integration.

The GoGo Instruments IH1700: Designed for studying microstructural evolution of materials at high temperatures, this system enables real-time, in-situ high-definition observation and analysis of phase transition processes such as melting, solidification, and crystallization. Its innovative infrared-focused heating technology breakthrough achieves ultra-fast heating rates of up to 30°C/s. The core heating module features a modular design, allowing rapid disassembly and replacement, significantly improving maintenance efficiency.