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Main Authors: Agarwal, Harshit, Uralska, Oleksandra, Billingsley, Jasmin, Yamilov, Maxim, Kim, Hyunsoo
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2506.16709
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author Agarwal, Harshit
Uralska, Oleksandra
Billingsley, Jasmin
Yamilov, Maxim
Kim, Hyunsoo
author_facet Agarwal, Harshit
Uralska, Oleksandra
Billingsley, Jasmin
Yamilov, Maxim
Kim, Hyunsoo
contents Understanding the magnetic properties of matter plays a key role in materials physics. However, university education on fundamental magnetism is limited to a theoretical survey because of the lack of appropriate apparatus that can be applied for laboratory courses at the undergraduate level. In this work, we introduce an AC magnetometer based on the Colpitts self-oscillator with an inductor coil as a probe. We show that this type of self-oscillator can be adopted in a typical university laboratory course to learn the principles of magnetic measurement and to understand the fundamental magnetism of matter. We demonstrate the exceptional stability of the circuit with a working frequency range of ~10 kHz to 10 MHz and excellent performance to detect the diamagnetic signal from a superconductor at cryogenic temperature.
format Preprint
id arxiv_https___arxiv_org_abs_2506_16709
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle AC magnetic measurements with a self-oscillating LC circuit and its application to university education
Agarwal, Harshit
Uralska, Oleksandra
Billingsley, Jasmin
Yamilov, Maxim
Kim, Hyunsoo
Physics Education
Understanding the magnetic properties of matter plays a key role in materials physics. However, university education on fundamental magnetism is limited to a theoretical survey because of the lack of appropriate apparatus that can be applied for laboratory courses at the undergraduate level. In this work, we introduce an AC magnetometer based on the Colpitts self-oscillator with an inductor coil as a probe. We show that this type of self-oscillator can be adopted in a typical university laboratory course to learn the principles of magnetic measurement and to understand the fundamental magnetism of matter. We demonstrate the exceptional stability of the circuit with a working frequency range of ~10 kHz to 10 MHz and excellent performance to detect the diamagnetic signal from a superconductor at cryogenic temperature.
title AC magnetic measurements with a self-oscillating LC circuit and its application to university education
topic Physics Education
url https://arxiv.org/abs/2506.16709