Found
25
products for "kerr imaging system
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Campo magnético en plano 2 T Espacio aéreo 10 mm Observación del dominio magnético con PID Regulación de retroalimentación de circuito cerrado Resolución del campo magnético
Product Description: The Kerr Microscope is an advanced instrument designed for high resolution magnetic microscopy, offering unparalleled performance in the study and analysis of magnetic materials and phenomena. Equipped with a comprehensive set of objectives including 5*, 20*, 50*, 100*, a high-temperature compensated 50*, and a non-magnetic objective, this microscope delivers exceptional versatility for various experimental requirements. Each objective is meticulously -
Campo magnético fuerte y pruebas de alta temperatura para la investigación de imanes permanentes
Product Description: The Kerr Microscope is a highly advanced instrument designed for precise magnetic field resolution testing and high temperature magnetic measurement. It offers exceptional capabilities that make it ideal for researchers and professionals working in the fields of magnetism, materials science, and condensed matter physics. This microscope integrates cutting-edge technology to deliver accurate and reliable data, even under challenging environmental -
Microscopía magnética de alta resolución: Caracterizar los imanes permanentes con KMPL-PM
Product Description: The Kerr Microscope is a highly advanced and versatile instrument designed for Magnetic Domain Observation and Strong Magnetic Field Testing, leveraging the Magneto-Optical Kerr Effect to deliver precise and detailed imaging of magnetic materials. This state-of-the-art microscope is engineered to operate within a wide Variable Temperature Range of 298 K to 798 K, allowing researchers and engineers to study magnetic phenomena across diverse thermal -
Instrumento de medición de bucles de histéresis del sistema MOKE de alta sensibilidad para el estudio de magnetismo débil y materiales 2D
High Sensitivity MOKE for Weak Magnetism and 2D Material Study Product Description: The Hysteresis Loop Measurement Instrument for Scientific Research is a cutting-edge tool specifically designed for the characterization of weak magnetic materials. This advanced system offers unparalleled Magnetic Field Resolution through PID Closed-loop Feedback Regulation, with an impressive resolution of 0.02 mT. This level of precision enables researchers to explore the intricate magnetic -
Sistema de medición no destructivo de la oblea con instrumento de bucle de histeresis de nivel de oblea
Wafer-Level Hysteresis Loop Measurement Instrument Product Introduction Using polar/longitudinal magneto-optical Kerr effects (MOKE), this instrument rapidly and globally detects the magnetism of wafer films. Non-contact measurement avoids wafer damage and is suitable for post-patterning sample testing in spin chip production. It provides a vertical magnetic field of up to 2.5 T and an in-plane magnetic field of up to 1.4 T, with strong magnetic fields inducing free and -
Microscopio MOKE de alta temperatura 450nm Microscopio de estudio para el estudio del proceso de magnetización de campo fuerte
High Temperature MOKE for Strong Field Magnetization Process Study Product Description: The Permanent Magnet Kerr Microscope is an advanced tool designed for studying magnetic materials with precision and accuracy. This cutting-edge microscope utilizes Permanent Magnet Materials to generate in-plane magnetic fields, providing researchers with valuable insights into the magnetic properties of their samples. One of the key features of this microscope is its water-cooled magnet, -
Criostato de imán superconductor ¢ Ventanas ópticas múltiples para ensayos de bajo tiempo/alto campo
Product Description: The MO-Cryostat is an advanced Magneto Optical Cryostat designed to provide exceptional performance and versatility for a wide range of low-temperature experimental applications. Engineered with precision and reliability in mind, this cryostat offers a unique combination of features that make it an ideal choice for researchers and scientists working in fields such as condensed matter physics, materials science, and quantum computing. One of the standout