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The Magneto Optical Cryostat, commonly referred to as the MO-Cryostat, is a highly specialized instrument designed to facilitate advanced research in the field of Quantum Materials. This state-of-the-art Raman spectroscopy cryostat offers an exceptional combination of precise temperature control, versatile optical access, and a robust magnetic field environment, making it an indispensable tool for scientists and researchers working on cutting-edge material studies.
One of the standout features of the MO-Cryostat is its spacious sample space, measuring 89 mm in diameter and 88 mm in height. This ample volume allows for the accommodation of a wide variety of sample sizes and experimental setups, providing flexibility for diverse research applications. The cryostat is equipped with eight optical windows, including one large top window with a diameter of 50 mm and a clear aperture of 44 mm, as well as seven side windows each measuring 40 mm in diameter with a 26 mm clear aperture. These optical windows provide excellent access for laser beams and detection systems, which is crucial for performing high-quality Raman spectroscopy and other optical measurements in low-temperature environments.
In addition to its optical capabilities, the Magneto Optical Cryostat is designed to support extensive electrical connectivity. It offers 16 DC electrical channels and 4 RF lines capable of handling frequencies up to 20 GHz. Furthermore, the system can support up to 80 cables, enabling complex electrical measurements and the integration of various sensors and actuators. This level of electrical interfacing is vital for experiments requiring precise electronic control and data acquisition under cryogenic conditions.
The magnetic field environment within the MO-Cryostat is created by a conical split-coil superconducting magnet oriented in the vertical direction. This magnet provides a field strength of ±1 Tesla with an impressive uniformity of ±0.3% over a spherical area of 3 cm in diameter. Such a uniform and stable magnetic field is essential for studying magnetic properties and phenomena in quantum materials. Additionally, the system boasts a rapid field variation speed, reaching 0.7 Tesla within 30 minutes, which allows for efficient and dynamic experimental protocols.
Temperature stability is another critical attribute of the MO-Cryostat, ensuring reliable and reproducible experimental conditions. For temperatures at or below 20 K, the system maintains stability within ±0.2%, while for temperatures above 20 K, it achieves an even tighter stability of ±0.02%. This precise temperature control is fundamental for investigating temperature-dependent behaviors in materials, especially in the realm of quantum physics where slight temperature fluctuations can significantly impact results.
Overall, the Magneto Optical Cryostat (MO-Cryostat) stands out as a premier Raman spectroscopy cryostat tailored for advanced research into Quantum Materials. Its combination of a large sample space, extensive optical and electrical access, strong and uniform magnetic fields, and exceptional temperature stability make it an ideal platform for exploring the fundamental properties of materials at cryogenic temperatures. Researchers leveraging this cryostat can expect unparalleled performance and versatility in their experimental investigations, paving the way for new discoveries and advancements in material science and quantum technologies.
| Temperature Range | 1.7 K - 350 K |
| Vibration | Sample Stage Vibration ≤±20 Nm |
| Magnetic Field | Conical Split-coil Superconducting Magnet, Vertical Direction, ±1 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 |
| Electrical Channels | 16 DC Lines, 4 20 GHz RF Lines, Up To 80 Cables Supported |
| Optical Viewing Angle | Top Window 70° Full Viewing Angle, Side Windows 13° Full Viewing Angle |
| 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 |
This Magneto Optical Cryostat is specially designed for advanced research on 2D Materials, providing precise temperature control and stable magnetic fields essential for studying 2D Materials. With superior vibration isolation and comprehensive electrical and optical access, it is an ideal tool for experiments involving 2D Materials.
The Truth Instruments MO Cryo, a Magneto Optical Cryostat, is an advanced scientific instrument designed for a variety of research and industrial applications requiring precise temperature and magnetic field control. Originating from China, this state-of-the-art MO-Cryostat offers an extensive temperature range from 1.7 K to 350 K, with exceptional temperature stability of ±0.2% for temperatures at or below 20 K, and ±0.02% for temperatures above 20 K. This level of stability is critical for experiments and applications involving cryogenic microscopy, where maintaining consistent environmental conditions is essential to obtain accurate results.
One of the primary application occasions for the MO Cryo is in cryogenic microscopy, where researchers study materials and biological samples at extremely low temperatures. The cryostat’s conical split-coil superconducting magnet provides a vertical magnetic field with a strength of ±1 Tesla and uniformity of ±0.3% over a 3 cm spherical area, enabling precise manipulation of magnetic properties during imaging or spectroscopic analysis. This makes it an ideal tool for investigating magnetic phenomena and quantum effects in various materials.
Moreover, the product is well-suited for experiments requiring rapid and controlled magnetic field variations, offering a field variation speed of 0.7 Tesla within 30 minutes. Its sample space, with an 89 mm diameter and 88 mm height, accommodates a wide range of sample sizes and experimental setups. The MO Cryo supports up to 80 cables, including 16 DC electrical channels and 4 high-frequency 20 GHz RF lines, allowing for complex electrical measurements and signal transmissions during experimentation.
In addition to academic and industrial research labs focused on condensed matter physics, materials science, and spintronics, the MO Cryostat is also applicable in semiconductor testing, superconductivity studies, and magnetic resonance experiments. Its reliability and precision make it indispensable for scientists working on cutting-edge technologies where cryogenic microscopy is vital.
Overall, the Truth Instruments MO Cryo Magneto Optical Cryostat combines versatile temperature and magnetic field control with robust electrical interfacing capabilities, providing a comprehensive solution for diverse applications that demand meticulous control over cryogenic and magnetic environments.
Q1: What is the brand and model of the Magneto Optical Cryostat?
A1: The Magneto Optical Cryostat is manufactured by Truth Instruments and the model number is MO Cryo.
Q2: Where is the Magneto Optical Cryostat made?
A2: The MO Cryo Magneto Optical Cryostat is made in China.
Q3: What applications is the MO Cryo Magneto Optical Cryostat suitable for?
A3: The MO Cryo is ideal for research in magneto-optical measurements, low temperature physics, and material science experiments requiring precise temperature control.
Q4: What is the temperature range of the Truth Instruments MO Cryo?
A4: The MO Cryo typically operates over a wide temperature range, allowing experiments from cryogenic temperatures up to room temperature, depending on the configuration.
Q5: Does the MO Cryo support integration with external measurement systems?
A5: Yes, the Magneto Optical Cryostat from Truth Instruments is designed to be compatible with various external measurement and control systems for enhanced experimental flexibility.