Novel Analysis Framework Using Quantum Optomechanical Readouts for Direct Detection of Dark Matter
Abstract
With the increase in speculation about the nature of our universe, there has been a growing need to find the truth about Dark Matter. Recent research shows that the Planck-Mass range could be a well-motivated space to probe for the detection of Dark Matter through gravitational coupling. This thesis dives into the possibility of doing the same in two parts. The first part lays out the analysis framework that would sense such an interaction, while the second part outlines a prototype experiment that when scaled up using quantum optomechanical sensors would serve as the skeleton to perform the analysis with.
Degree
M.Sc.
Advisors
Longuski, Purdue University.
Subject Area
Energy|Astronomy|Astrophysics|Computer Engineering|Mathematics|Theoretical physics
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