Versatile Kerr Microscope High Resolution Microscopes For Permanent Magnet Characterization

Product Description:

The Permanent Magnet Kerr Microscope is a cutting-edge tool designed for advanced magneto-optical microscopy applications, offering exceptional optical resolution of 450 Nm. This microscope is equipped with both in-plane and vertical strong magnetic field capabilities, allowing for precise control and manipulation of magnetic domains.

The in-plane magnetic field is generated by a water-cooled magnet, providing a powerful 3 T at an air gap of 9.5 mm and 2 T at an air gap of 10 mm. This feature enables high-resolution imaging and analysis of magnetic structures using techniques such as Vector MOKE and 3D MOKE.

For vertical magnetic field experiments, the microscope utilizes a water-cooled magnet that delivers 2 T at an air gap of 8.5 mm and 1.3 T at an air gap of 12 mm. This capability is essential for studying the magnetic properties of materials in different orientations and configurations.

The Permanent Magnet Kerr Microscope comes with a range of objectives including 5*, 20*, 50*, and 100* magnification options. Additionally, it includes a high-temperature compensated 50* objective for reliable performance in varying environmental conditions. The non-magnetic objective ensures accurate measurements and imaging in magnetic field-sensitive samples.

With a temperature stability of ±50 MK, this microscope offers consistent and reliable performance during experiments that require precise control of temperature variations. Researchers can rely on this stability to ensure accurate measurements and reproducible results in their studies.

In summary, the Permanent Magnet Kerr Microscope is a versatile and powerful instrument for magneto-optical microscopy applications, providing strong magnetic field capabilities for in-plane and vertical imaging. Researchers can benefit from its high optical resolution, multiple objective options, and temperature stability, making it an ideal tool for studying magnetic materials and phenomena in various research fields.

Features:

• Product Name: Permanent Magnet Kerr Microscope
• Objectives:
  • 5*
  • 20*
  • 50*
  • 100*
  • High-temperature Compensated 50*
  • Non-magnetic
• Optical Resolution: 450 Nm
• Variable Temperature Range: 298 K - 798 K
• Vertical Magnetic Field:
  • Water-cooled Magnet, 2 T@air Gap 8.5 Mm
  • Water-cooled Magnet, 1.3 T@air Gap 12 Mm
• Magnetic Field Resolution: PID Closed-loop Feedback Regulation, Resolution 0.05 MT

Technical Parameters:

Applications:

Truth Instruments' Permanent Magnet Kerr Microscope (Model: KMPL-PM) is a cutting-edge instrument designed for a wide range of magneto-optical applications. With its origin in China, this microscope is equipped with advanced features that make it suitable for various research scenarios.

One of the key strengths of the KMPL-PM is its in-plane magnetic field capabilities. The water-cooled magnet provides a strong magnetic field of 3 T at an air gap of 9.5 mm, making it ideal for studies requiring high magnetic field strength. Additionally, the adjustable magnetic field strength of 2 T at an air gap of 10 mm offers flexibility in experimental setups.

Researchers looking for high optical resolution will appreciate the KMPL-PM's capability to achieve a resolution of 450 nm. This level of precision is crucial for detailed imaging and analysis in magneto-optical Kerr microscopy.

Moreover, the variable temperature range of 298 K to 798 K makes the KMPL-PM suitable for studying materials across a wide temperature spectrum. The microscope's temperature stability of ±50 MK ensures reliable and consistent performance during temperature-dependent experiments.

Another notable feature of the KMPL-PM is its magnetic field resolution achieved through PID closed-loop feedback regulation, with a remarkable resolution of 0.05 mT. This level of control is essential for studying magnetic domains and other magnetic phenomena with precision.

The Permanent Magnet Kerr Microscope from Truth Instruments is ideal for applications requiring magneto-optical Kerr microscopy, including Vector MOKE and 3D MOKE experiments. Its ability to generate a strong magnetic field, coupled with high optical resolution and precise temperature control, makes it a versatile tool for researchers in the field of magnetism and materials science.