This ultra-high-temperature heating stage, capable of reaching a maximum operating temperature of 1200°C, offers core advantages such as precise temperature control, excellent sealing, and superior optical path compatibility, fully meeting the stringent demands of high-temperature in-situ Raman testing.

• Core Functional Highlights

1.Wide-range, precise temperature control with reliable high-temperature performance

• The device covers a temperature range from room temperature to 1200°C, allowing it to readily handle a wide variety of application scenarios.

• With a temperature control accuracy of up to ±0.1°C, it effectively eliminates the interference of temperature fluctuations on experimental data, ensuring the accuracy and repeatability of every test result.

2.Dedicated optical path design to safeguard Raman signals

The heating stage features a reflective optical path design, which aligns closely with the operating principle of Raman microscopes. It maximizes unobstructed light transmission, minimizes optical losses, and enhances the efficiency of Raman signal collection as well as data clarity.

The internal space is precisely engineered:

•Distance from the window upper surface to the sample stage: 7 mm

•Height above the sample: 6 mm

This well-considered layout eliminates any obstruction of the optical path and perfectly meets the focusing requirements of Raman microscopes—ready for use upon installation without the need for repeated adjustments.

3.Precision manufacturing craftsmanship, compatible with multiple sample types

• The sample stage is made of high-temperature-resistant ceramic material, offering corrosion resistance, resistance to thermal deformation, and non-contaminating properties. It is suitable for stable placement of various experimental samples, including powders and bulk materials.

• The top cover of the device is custom-developed specifically for HORIBA Raman microscopes, ensuring high compatibility and easy installation. It enables seamless integration without any modification to the original instrument, allowing for rapid deployment.