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This work aims to develop a high-performance MRI technique utilizing high-Tc SQUIDs in ultra-low magnetic fields.

February 14, 2026Open Access

High-Tc SQUID-based ultra-low field MRI in unshielded environments

Key Points

This work aims to develop a high-performance MRI technique utilizing high-Tc SQUIDs in ultra-low magnetic fields.
Optimized NMR/MRI techniques applied to water phantoms and human fingers
Assessment of image contrast and spatial resolution under unshielded conditions
Experimentation conducted at magnetic fields of 98 μT
Achieved a signal-to-noise ratio of 62 for a 200 μL water column
Demonstrated a spatial resolution of 2 mm, comparable to existing ULF MRI systems
First clear images of fingers using high-Tc SQUIDs were obtained, highlighting potential for clinical use.

Abstract

A high-performance MRI based on high-Tc SQUID and flux coupling at ultralow magnetic fields is reported in this work. The technique of NMR/MRI was optimized to study MRI of water phantoms and fingers. An SNR of 62 in image contrast was achieved for a water column of 200 μL at magnetic fields of 98 μT. The MRI showed high image contrast and demonstrated a spatial resolution of 2 mm for samples in magnetically unshielded environments. This resolution is comparable to the current state-of-the-art values (typically 2.0–3.0 mm) reported for SQUID-based ULF MRI systems. A clear image of fingers was demonstrated for the first time using high-Tc SQUIDs, which shows promise for biological or clinical applications.

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High-Tc SQUID-based ultra-low field MRI in unshielded environments

Key Points

Abstract

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