Non-contact linear slider for cryogenic environment
Abstract
A non-contact linear slider based on stable superconducting magnetic levitation with a long permanent magnet as a slider and two fixed superconducting disks which define the slide way has been designed, built and tested. The slider can be moved stably along a stroke of 11.5mm by supplying a low current in a coil located at the end of the stroke while the levitation remains stable providing a reliable mechanism for linear displacement in a cryogenic environment. The response is linear with a sensitivity of 52 {\mu}m/mA for displacements lower than 6 mm. Run out, pitch, yaw and roll have been measured demonstrating an overall good performance. In all cases the measured hysteresis was lower than 250 {\mu}m and the measured run out was also lower than 250 {\mu}m both for Y and Z axis. Roll and yaw were always below 300 {\mu}rad, that is one order of magnitude lower than the pitch (4500 {\mu}rad).
Cite
@article{arxiv.2402.00557,
title = {Non-contact linear slider for cryogenic environment},
author = {Jose-Luis Perez-Diaz and Juan Carlos Garcia-Prada and Efren Diez-Jimenez and Ignacio Valiente-Blanco a and Berit Sander and Lauri Timm and Juan Sanchez-Garcia-Casarrubios and Javier Serrano and Fernando Romera and Heribert Argelaguet-Vilaseca and David Gonzalez-de-Maria},
journal= {arXiv preprint arXiv:2402.00557},
year = {2024}
}