Mesoscale and Nanoscale Physics · Physics
Scanning SQUID microscopy in a cryogen-free dilution refrigerator
D. Low, G. M. Ferguson, Alexander Jarjour, Brian T. Schaefer +3
2021-09-15
Materials Science · Physics
An ultra-low field SQUID magnetometer for measuring antiferromagnetic and weakly remanent magnetic materials at low temperatures
Michael Paulsen, Julian Lindner, Bastian Klemke, Jörn Beyer +3
2022-11-24
Superconductivity · Physics
Precise magnetization measurements down to 500 mK using a miniature 3He cryostat and a closed-cycle 3He gas handling system installed in a SQUID magnetometer without continuous-cooling functionality
Kazutoshi Shimamura, Hiroki Wajima, Hayato Makino, Satoshi Abe +4
2022-05-11
Superconductivity · Physics
Cryogen-free variable temperature scanning SQUID microscope
Logan Bishop-Van Horn, Zheng Cui, John R. Kirtley, Kathryn A. Moler
2019-07-04
Instrumentation and Detectors · Physics
Magnetic cooling for microkelvin nanoelectronics on a cryofree platform
Mario Palma, Dario Maradan, Lucas Casparis, Tai-Min Liu +2
2017-10-16
Mesoscale and Nanoscale Physics · Physics
On-chip SQUID measurements in the presence of high magnetic fields
L. Chen, W. Wernsdorfer, C. Lampropoulos, G. Christou +1
2010-09-14
Instrumentation and Detectors · Physics
Application of SQUIDs to low temperature and high magnetic field measurements - Ultra low noise torque magnetometry
Frank Arnold, Marcel Naumann, Thomas Lühmann, Andrew P. Mackenzie +1
2018-02-08
Mesoscale and Nanoscale Physics · Physics
Scanning SQUID-on-tip microscope in a top-loading cryogen-free dilution refrigerator
Haibiao Zhou, Nadav Auerbach, Indranil Roy, Matan Bocarsly +11
2023-05-24
Superconductivity · Physics
Scanned SQUID Microscope with High-speed Electrical Connectivity
Ian W. Haygood, Bochao Xu, John Biesecker, Michael L. Schneider
2025-09-10
Materials Science · Physics
Sub-10 mK "In-cell" Magnetic Refrigeration for Cryogen-free Cryostats
Alexander M. Donald, Nicolas Silva, Christopher J. Ollmann, Roch Schanen +6
2026-05-21
Superconductivity · Physics
Micro-coil detection of Nuclear Magnetic Resonance for nanofluidic samples
Aya Shibahara, Andrew Casey, Chris Lusher, John Saunders +3
2013-11-11
Superconductivity · Physics
A Directly Coupled Superconducting Quantum Interference Device Magnetometer Fabricated in Magnesium Diboride by Focused Ion Beam
G. Burnell, D. -J. Kang, D. A. Ansell, H. -N. Lee +3
2009-11-07
Mesoscale and Nanoscale Physics · Physics
Micro-SQUID technique for studying the temperature dependence of switching fields of single nanoparticles
C. Thirion, W. Wernsdorfer, M. Jamet, V. Dupuis +3
2009-11-07
Superconductivity · Physics
Calculations for Magnetism in SQUIDs at Millikelvin Temperatures
S. Sendelbach, D. Hover, A. Kittel, M. Mück +2
2008-03-28
Instrumentation and Detectors · Physics
Mutual Inductance Sensing SQUID: Cryogenic microcalorimeter based on mutual inductance readout of superconducting temperature sensors
Jodok Zeuner, Constantin Schuster, Sebastian Kempf
2026-04-29
Instrumentation and Detectors · Physics
Thin-film based ultralow noise SQUID magnetometer
M. Schmelz, V. Zakosarenko, A. Chwala, T. Schönau +4
2017-05-18
Superconductivity · Physics
Observation of the Josephson effect in superhydrides: DC SQUID based on (La,Ce)H$_{10+x}$ with operating temperature of 179 K
Dmitrii V. Semenok, Ivan A. Troyan, Di Zhou, Wuhao Chen +2
2025-01-03
Superconductivity · Physics
Construction of a Versatile Ultra-Low Temperature Scanning Tunneling Microscope
H. Kambara, T. Matsui, Y. Niimi, H. Fukuyama
2009-11-13
Instrumentation and Detectors · Physics
Step-by-step design guide of a cryogenic three-axis vector magnet
Gaia Da Prato, Yong Yu, Ronald Bode, Simon Gröblacher
2025-07-25
Mesoscale and Nanoscale Physics · Physics
Dual on-chip SQUID measurement protocol for flux detection in large magnetic fields
Josiah Cochran, Giovanni Franco-Rivera, Denghui Zhang, Lei Chen +2
2021-10-13
Superconductivity · Physics
Rotating sample magnetometer for cryogenic temperatures and high magnetic fields
M. Eisterer, F. Hengstberger, C. S. Voutsinas, N. Hörhager +3
2015-05-28