Novel Analysis Framework Using Quantum Optomechanical Readouts For Direct Detection Of Dark Matter

Description

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.

Links & Downloads

1. 10.25394/pgs.14489160.v1

Tags

Cosmology

Astrophysics

Aerospace Engineering

Quantum Mechanics

Space Science

Quantum Optics

Astronomical and Space Instrumentation

Math

Computing

Astronomy

Aerospace

Physics

Dark Matter

Direct Detection

Analysis Framework

Quantum Optomechanics

Planck Mass

Gravitational Interaction

Phase Space

Integral Transform

Additional Fields

Identifer	oai:union.ndltd.org:purdue.edu/oai:figshare.com:article/14489160
Date	06 May 2021
Creators	Ashwin Nagarajan (10702782)
Source Sets	Purdue University
Detected Language	English
Type	Text, Thesis
Rights	CC BY 4.0
Relation	https://figshare.com/articles/thesis/Novel_Analysis_Framework_Using_Quantum_Optomechanical_Readouts_For_Direct_Detection_Of_Dark_Matter/14489160