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Quantum Design cryogen-free Magnetic Property Measurement System (MPMS)
Magnetic Property Measurement System
- Partner:University of Cambridge
- Facility:The Maxwell Centre
- Availability:Available
Or call us now on 0161 275 8382
Detailed Description
The MPMS consists of the following modules:
(1) Custom-designed electronic transport probe with a sample holder with 2-point and 4-point electrical connections for magnetoelectric measurements;
(2) High pressure cell for pressure-magnetism coupled measurements of bulk crystals, thin-films and devices;
(3) Magneto-optical module compatible with monochromatic or white light sources with varying wavelengths in the 360 nm to 845 nm range for measuring photo-induced magnetisation phenomena across a wide-range of temperatures and applied magnetic fields;
(4) Oven for measuring high temperature properties up to 1000 K, which is particularly important for studying phase transitions in multicaloric materials that operate above room temperature.
Uses/Applications
This technique is applicable if your research interests require detailed measurements of advanced functional magnetic materials, devices, and circuits, in which magnetic, electronic, optical and thermal properties are strongly coupled. The system has a magnetic moment sensitivity of better than 10-8 emu and enables detailed, long-duration, measurements and testing of magnetic phenomena.
The MPMS consists of the following modules:
(1) Custom-designed electronic transport probe with a 5-axis sample holder with 2-point and 4-point electrical connections for magnetoelectric measurements.
(2) High pressure cell for pressure-magnetism coupled measurements of bulk crystals, thin-films and devices.
(3) Magneto-optical module with a monochromatic light source that uses a Xenon bulb and filter for illuminating samples with varying wavelengths in the 360 nm to 845 nm range for measuring photo-induced magnetisation phenomena across a wide-range of temperatures and applied magnetic fields.
(4) Oven for measuring high temperature properties up to 1000 K, which is particularly important for studying phase transitions in multicaloric materials that operate above room temperature.
For testing of phenomena in materials within which magnetic, electronic, optical and thermal properties are strongly coupled.