Note: Optical filter method for high-resolution magnetostriction measurement using fiber Bragg grating under millisecond-pulsed high magnetic fields at cryogenic temperatures

TL;DR

This paper introduces an optical filter method for fiber Bragg grating-based magnetostriction measurement, achieving high resolution and significantly increased speed under millisecond-pulsed high magnetic fields at cryogenic temperatures.

Contribution

The paper presents a novel optical filter detection scheme that enhances the speed of FBG-based magnetostriction measurements by about 100 times while maintaining high resolution.

Findings

Achieved magnetostriction resolution of ~10^{-6} at 5 MHz

Demonstrated measurement in 35 ms pulsed magnetic fields up to 45 T

System is approximately 100 times faster than conventional methods

Abstract

High-resolution magnetostriction measurement of $\Delta L/L\sim10^{-6}$ at a speed of 5 MHz is performed, using optical filter method as the detection scheme for the fiber Bragg grating (FBG) based strain monitor is performed under 35-millisecond pulsed high magnetic fields up to 45 T at 2.2 K. The resolution of magnetostriction is about the same order as the conventionally reported value from FBG based magnetostriction measurement systems for millisecond pulsed magnetic fields. The measurement speed is $\sim$100 times the conventional ones. Present system can be a faster alternative for the conventional FBG based magnetostriction measurement system for millisecond pulsed high magnetic fields.