In recent years, the physics and materials at the nanoscale under extreme environments has become hotspot of academic research. Under extremely low temperature and strong magnetic field, the performance of samples can be characterized from multiple physical dimensions such as material structure, physical properties, temperature, magnetic field, electricity, optics, microwave, etc. based on atomic force and magnetic force. It has wide range of applications, such as studying superconducting materials, two-dimensional materials, topological insulators, etc.
XD103 series piezoelectric nanopositioning stage is specially designed for extremely low temperature and strong magnetic field environment. It adopts low temperature piezoelectric drive, and the shell adopts light materials. XD103 is XY two-dimensional scanning motion. Its volume is small and its size is only 33×33×15mm, with 10×10mm through hole in the center. All components adopt low temperature and strong magnetic compatible version to ensure their performance under low temperature and strong magnetic.
Features
Low temperature resistance up to 4K
Strong magnetic resistance
Displacement up to 10μm@150V at 4K
Resolution up to 0.5nm
Open loop drive, fast response
Vacuum resistance up to 10^-4mbar
Magnetic field resistance up to 3T
Displacement VS voltage curve
Technical data
Model: XD103
Active axis: X, Y
Travel range@room temperature: 100μm@60V
Travel range@ 4K temperature: 10μm@150V
Resolution@room temperature: 1nm
Resolution@4K temperature: 0.5nm
Unload resonance frequency: >350Hz
Resonance frequency@150g: >120Hz
Capacitance@room temperature: 5.4μF/axis
Capacitance@4K temperature: 0.75μF/axis
Material: titanium alloy, aluminum
Load capacity: ≤150g