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Three axis vector magnet set-up for cryogenic scanning probe microscopy.

J A Galvis1, E Herrera1, I Guillamón1

  • 1Laboratorio de Bajas Temperaturas, Departamento de Física de la Materia Condensada, Instituto de Ciencia de Materiales Nicolás Cabrera, Condensed Matter Physics Center (IFIMAC), Facultad de Ciencias Universidad Autónoma de Madrid, 28049 Madrid, Spain.

The Review of Scientific Instruments
|February 2, 2015
PubMed
Summary
This summary is machine-generated.

Researchers developed a new 3-axis vector magnet system for cryogenic scanning probe microscopy. This system enables atomic resolution imaging of tilted vortex lattices in superconductors like β-Bi2Pd at 150 mK.

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Area of Science:

  • Condensed Matter Physics
  • Materials Science
  • Cryogenic Engineering

Background:

  • Cryogenic scanning probe microscopy requires precise magnetic field control.
  • Understanding vortex lattice behavior in superconductors is crucial for technological applications.

Purpose of the Study:

  • To develop and characterize a novel three-axis vector magnet system for cryogenic SPM.
  • To investigate the properties of superconductors using advanced SPM techniques at millikelvin temperatures.

Main Methods:

  • Implementation of a three-axis vector magnet system with a 5T z-axis field and 1.2T XY-plane field.
  • Utilizing a scanning tunneling microscopy-spectroscopy (STM-STS) setup within a dilution refrigerator.
  • Employing new high-voltage, ultralow-noise piezodrive electronics and analyzing vibration noise.

Main Results:

  • Achieved atomic resolution STM images and STS maps of the superconductor β-Bi2Pd at 150 mK.
  • Observed a tilted hexagonal vortex lattice, appearing as a strongly elongated hexagonal projection on the surface.
  • Demonstrated the capability of Magnetic Force Microscopy (MFM) in a variable temperature insert.

Conclusions:

  • The developed vector magnet system is effective for cryogenic SPM measurements.
  • The system allows for detailed studies of vortex lattice structures in superconductors.
  • This work advances the capabilities for exploring quantum materials at extreme conditions.