Progress towards a robust, calibration free and ultra-sensitive quantum technology-based magnetometer for fire-and-forget applications

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Authors
Unruh, Thane
Halder, Sajib
Ambal, Kapildeb
Advisors
Issue Date
2021
Type
Abstract
Poster
Keywords
Magnetometer , Electrically detected magnetic resonance , EDMR , Aircraft , Spacecraft , Magnetic field sensor , Miniaturization , Fire-and-forget software
Research Projects
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Journal Issue
Citation
Unruh, Thane, Halder, Sajib and Kapideb Ambal. Progress towards arobust, calibration free and ultra-sensitive quantum technology-based magnetometer for fire-and-forget applications. -- Fyre in STEM Showcase, 2021.
Abstract

A magnetometer, or magnetic field sensor, are used on all types of aircrafts and spacecrafts to measure magnetic field intensity. We will be using EDMR or, electrically detected magnetic resonance, to measure these magnetic fields. We are working to miniaturize the design because as of now EDMR is fairly large and does not fit well on small satellites or aircrafts. But with the smaller design we do not want to lose any of the sensitivity of the sensor. Therefore, we are making our sensor as small as we can without losing and sensitivity and maybe even improve sensitivity.

Table of Contents
Description
Poster and abstract presented at the FYRE in STEM Showcase, 2021.
Research project completed at the Department of Mathematics, Statistics, and Physics.
Publisher
Wichita State University
Journal
Book Title
Series
FYRE in STEM 2021
PubMed ID
DOI
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