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Vertical Field Cryo Probe Station For Low Temperature Testing
The Cryogenic Vertical Superconducting Magnetic Field Probe Station is a cutting-edge system designed for precise research and testing in the field of strong magnetic fields. This innovative product features a superconducting magnet that generates a powerful vertical magnetic field with a strength of up to ±3 T, making it ideal for a wide range of applications requiring high magnetic field intensity.
One of the key highlights of this probe station is its ability to operate at sample temperatures ranging from <10 K to 420 K, offering researchers the flexibility to conduct experiments across a broad temperature spectrum. This versatility is essential for studying materials and devices under varying temperature conditions, ensuring accurate and reliable results in different research scenarios.
Furthermore, the Cryogenic Vertical Superconducting Magnetic Field Probe Station is equipped with advanced technology to minimize sample stage vibration, with a peak-to-peak vibration level of less than 1 μm. This low vibration feature is crucial for maintaining the stability and integrity of samples during testing, ensuring precise measurements and consistent performance in demanding research environments.
This state-of-the-art probe station is designed as a comprehensive Hall effect testing system, offering exceptional capabilities for studying magnetic and electronic properties of materials. The superconducting magnet, combined with the vertical orientation and high magnetic field strength, provides researchers with the tools needed to perform detailed and accurate measurements, making it an indispensable tool for scientific investigations in various disciplines.
In addition, the Cryogenic Vertical Superconducting Magnetic Field Probe Station is a cryogen-free system, eliminating the need for traditional cryogenic cooling methods and enabling efficient and cost-effective operation. This innovative design not only enhances the user experience by simplifying maintenance and reducing operational complexities but also contributes to environmental sustainability by minimizing the use of cryogenic resources.
With a standard configuration of 4 probe arms, the probe station offers the flexibility to support up to 8 probe arms, allowing researchers to expand their experimental setups and conduct more comprehensive testing procedures. The probe arms feature X-Y-Z stroke capabilities, with ranges of 50 mm for X-axis and 25 mm for both Y and Z axes, providing precise positioning and maneuvering for various sample configurations and measurement requirements.
Technical Parameter | Description |
---|---|
Needing Range | Any Point Within 25 mm Diameter |
Number of Probe Arms | Standard 4 Probe Arms, Up To 8 Supported |
Magnetic Field | Superconducting Magnet, Vertical Direction, ±3 T Strength |
Temperature Stability | <±20 mK (10 K-420 K) |
Probe Arm Stroke | X-Y-Z, 50 mm-25 mm-25 mm |
Vibration | Sample Stage Vibration <1 μm (peak-to-peak) |
Sample Temperature | <10 K-420 K |
Vacuum | Low-temperature Vacuum <1.2E-3Pa |
Product Application Occasions and Scenarios for the Truth Instruments Cryogenic Vertical Superconducting Magnetic Field Probe Station (Model PS1DP-Cryo) are diverse and tailored for precise scientific research and experimentation. This innovative product, originating from CHINA, offers exceptional performance attributes that make it ideal for a range of specific applications.
One primary application scenario for the PS1DP-Cryo is its utilization in Hall effect testing systems. With its superconducting magnet generating a Vertical Magnetic Field of ±3 T strength, this probe station is well-suited for conducting precise Hall effect measurements. Researchers and scientists can rely on its reliable performance to accurately determine the properties of materials under specific magnetic field conditions.
Moreover, the PS1DP-Cryo is perfect for scenarios requiring Electrical transport measurements. Its temperature stability of <±20 MK (10 K-420 K) ensures consistent and accurate data collection across a wide temperature range. This attribute is particularly beneficial for studying the electrical transport properties of materials under varying temperature conditions.
Another key application occasion for this probe station is in research settings where samples need to be analyzed within a confined space. The PS1DP-Cryo's Needing Range of Any Point Within 25 mm Diameter provides researchers with the flexibility to study small-scale samples with precision and accuracy.
Furthermore, the low-temperature Vacuum of <1.2E-3Pa maintained by this probe station makes it an ideal choice for experiments requiring a controlled vacuum environment. The vacuum stability ensures that samples remain uncontaminated during testing, contributing to reliable and reproducible results.
In environments where vibration can impact experimental outcomes, the PS1DP-Cryo's Vibration control feature ensures Sample Stage Vibration is kept below 1 μm (peak-to-peak). This attribute is crucial for maintaining the integrity of measurements in scenarios where even minor vibrations can distort results.