Integrated Magneto Optical Cryostat Magnet Low Temperature Cryostat For Spectroscopy And Quantum Materials

Product Description:

The Ultra-Low-Temperature Superconducting-Magnet Integrated Optical Property Measurement Cryostat, also known as MO-Cryostat, offers a wide temperature range, with the ability to operate within temperatures ranging from 1.7 K to 350 K. This extensive temperature range allows for versatile experimental conditions and precise measurements across various temperature regimes.

Equipped with optical viewing capabilities, this cryostat features a top window with a full viewing angle of 70°, providing a comprehensive view of the sample under study. Additionally, the side windows offer a full viewing angle of 13°, allowing for detailed observations from different perspectives.

To ensure stability and accuracy during experiments, the cryostat is designed to minimize sample stage vibration to less than ±20 Nm. This feature helps maintain the integrity of measurements and reduces potential disruptions caused by external vibrations.

The cryostat is constructed with high-quality optical windows, including 1 top window with a 50 mm diameter and a 44 mm clear aperture. Furthermore, it includes 7 side windows, each with a 40 mm diameter and a 26 mm clear aperture. These optical windows are specifically designed to facilitate optimal light transmission and observation of samples within the cryostat.

In terms of electrical channels, the cryostat offers 16 DC lines and 4 20 GHz RF lines, allowing for versatile electrical connectivity and signal transmission. With support for up to 80 cables, users can easily integrate their experimental setups and instrumentation with the cryostat for comprehensive data collection and analysis.

One of the key advantages of this cryostat is its fast cooldown capability, enabling users to quickly reach their desired operating temperature and commence experiments efficiently. This feature is essential for researchers and scientists who require rapid cooling and stable temperature control for their measurements.

Features:

• Product Name: Ultra-Low-Temperature Superconducting-Magnet Integrated Optical Property Measurement Cryostat
• Magnetic Field: Conical Split-coil Superconducting Magnet, Vertical Direction, ±7 T Strength, ±0.3% Uniformity (3 Cm Spherical Area), Field Variation Speed 0-7 T ≤30 Minutes
• Temperature Stability: ±0.2% For Temperatures <20 K; ±0.02% For Temperatures >20 K
• Optical Windows: 1 Top Window (50 Mm Diameter, 44 Mm Clear Aperture), 7 Side Windows (40 Mm Diameter, 26 Mm Clear Aperture)
• Sample Space: 89 Mm Diameter, 88 Mm Height
• Electrical Channels: 16 DC Lines, 4 20 GHz RF Lines, Up To 80 Cables Supported

Technical Parameters:

Applications:

Product Application Occasions and Scenarios for the Truth Instruments MO Cryo Ultra-Low-Temperature Superconducting-Magnet Integrated Optical Property Measurement Cryostat:

1. Research Laboratories: The MO Cryo is ideal for research laboratories conducting experiments on 2D materials due to its fast cooldown feature and wide temperature range capabilities. Researchers can benefit from the precise temperature stability of ±0.2% for temperatures below 20 K and ±0.02% for temperatures above 20 K when studying the optical properties of various materials.

2. Universities and Educational Institutions: The MO Cryo can be used in universities and educational institutions for conducting experiments and teaching purposes. Its conical split-coil superconducting magnet with a magnetic field strength of ±7 T and ±0.3% uniformity is suitable for studying the behavior of materials under different magnetic field conditions.

3. Industrial R&D Facilities: Industrial research and development facilities can utilize the MO Cryo for testing and analyzing the optical properties of materials across a wide temperature range from 1.7 K to 350 K. The 16 DC lines and 4 20 GHz RF lines with support for up to 80 cables make it suitable for a variety of electrical channel applications.

4. Material Science Applications: The MO Cryo is well-suited for material science applications that require precise temperature control and magnetic field stability. Its sample space of 89 mm diameter and 88 mm height provides ample room for testing different samples, while the vertical direction of the magnetic field allows for versatile experimentation.

5. Semiconductor Industry: The MO Cryo can be used in the semiconductor industry for analyzing the optical properties of semiconductor materials at ultra-low temperatures. The fast cooldown feature and temperature stability of the cryostat make it a reliable tool for characterizing semiconductor devices.

6. Quantum Computing Research: Researchers in the field of quantum computing can benefit from the MO Cryo's high magnetic field strength, uniformity, and temperature range for studying quantum materials and devices. The cryostat's field variation speed of 0-7 T in less than 30 minutes enables quick adjustments for different experimental setups.