Precise Control Vibrating Magnetometer 77 K - 950 K Temperature Range VSM For Powders Films

Product Description:

A Vibrating Sample Magnetometer (VSM) is an essential tool for researchers and scientists working in the field of magnetic materials and properties. This particular VSM product offers a comprehensive set of features and capabilities that make it a top choice for those in need of a reliable and precise magnetic property measurement system.

One of the key highlights of this VSM is its temperature options. With a variable temperature range of 77 K to 950 K and a temperature stability of ±0.2 K, users have the flexibility to conduct experiments across a wide temperature range while ensuring precise and accurate temperature control. This feature is crucial for studying the magnetic properties of materials under different temperature conditions.

When it comes to magnetic field parameters, this VSM offers impressive capabilities. It can generate a magnetic field of 2.8 T at an air gap of 10 mm, providing strong and consistent magnetic fields for reliable measurements. Additionally, it can achieve a magnetic field of 3 T at an air gap of 3.5 mm and 2.4 T for variable temperature testing, allowing users to tailor the magnetic field parameters based on their specific experimental requirements.

The magnetic field resolution of this VSM is also noteworthy, with a high sensitivity of 1 μT and closed-loop control stability of ±10 μT. This level of precision ensures that researchers can accurately measure and analyze the magnetic properties of various materials with confidence.

Another feature that sets this VSM apart is its sample holder rotation range. With a ±360-degree electric rotation capability, users can easily manipulate the orientation of the sample for thorough magnetic property characterization. This flexibility enables researchers to study the anisotropy and other directional dependencies of magnetic materials effectively.

Furthermore, the sweep field speed of this VSM is impressive, offering a sweep field speed of 0.5 T/second. This fast sweep field speed allows for efficient data collection and analysis, saving researchers valuable time during experiments.

In conclusion, this VSM is a turnkey system that combines high sensitivity, precise control, and versatile capabilities to provide researchers with a powerful tool for studying magnetic properties. With its advanced temperature options, magnetic field parameters, resolution, sample holder rotation range, and sweep field speed, this VSM offers a comprehensive solution for magnetic property measurement applications across various research fields.

Features:

• Product Name: Vibrating Sample Magnetometer
• Magnetic Field Parameters:
  • 2.8 T @ air Gap 10 mm
  • 3 T @ air Gap 3.5 mm
  • 2.4 T for Variable Temperature Testing
• Magnetic Moment Measurement:
  • Repeatability ±0.5%
  • Stability ±0.05% Full Range
• Temperature Options:
  • Variable Temperature Range 77 K～950 K
  • Temperature Stability ±0.2 K
• Magnetic Field Resolution: 1 μT
• Closed-loop Control Stability: ±10 μT
• Sweep Field Speed: 0.5 T/second

Technical Parameters:

Applications:

The MIT-70 features a sample holder rotation range of ±360-degree electric rotation, allowing for versatile sample positioning for different experimental needs. With a noise level of 40 Nemu at room temperature and 189 Nemu for variable temperature testing, this magnetometer provides reliable results in noisy environments, making it ideal for Spintronics research.

Equipped with magnetic field parameters such as 2.8 T at an air gap of 10 mm, 3 T at an air gap of 3.5 mm, and 2.4 T for variable temperature testing, the MIT-70 offers flexibility in studying magnetic materials under various conditions. Researchers can explore a wide temperature range from 77 K to 950 K with a temperature stability of ±0.2 K, making it a versatile tool for investigating magnetic phenomena across different temperatures.

The MIT-70 Vibrating Sample Magnetometer is suitable for a range of product application occasions and scenarios. It is ideal for research labs, universities, and industrial settings where precise magnetic characterization is essential. Whether studying magnetic materials for Spintronics applications or conducting high-accuracy experiments, this magnetic characterization system delivers reliable results and consistent performance.