DOCSLIB.ORG
Explore
Sign Up
Log In
Upload
Search
Home
» Tags
» Atom interferometer
Atom interferometer
Atomic Interferometric Gravitational-Wave Space Observatory (AIGSO)
Atom Interferometry in an Optical Cavity by Matthew Jaffe a Dissertation Submitted in Partial Satisfaction of the Requirements F
Cold Atom Interferometry Sensors: Physics and Technologies
Atom Interferometry for Detection of Gravitational Waves
Atom Interferometry for Tests of General Relativity, Phd Thesis, Leibniz Universität Hannover © 2020 Für Opa
Atom Interferometry for Fundamental Physics and Gravitational Wave Detection
Taming the Quantum Noisehow Quantum Metrology Can Expand the Reach of Gravitational-Wave Observatories
Primordial Backgrounds of Relic Gravitons Arxiv:1912.07065V2 [Astro-Ph.CO] 19 Mar 2020
AION: an Atom Interferometer Observatory and Network
Both Higgs and Axions Live in Landau-Ginzberg Potentials
Atom Interferometry and Application to Fundamental Physics
Sources and Technology for an Atomic Gravitational Wave Interferometric Sensor
Precision Atom Interferometry for Fundamental Physics
Atom Interferometry for Detection of Gravitational Waves NIAC Phase 1 Final Report
Studying Antimatter Gravity with Muonium
Mobile and Remote Inertial Sensing with Atom Interferometers
Detection of Space-Time Perturbations with Quantum- Enhanced Metrology
Multi-Loop Atomic Sagnac Interferometry
Top View
Prospective Sensitivities of Atom Interferometers to Gravitational Waves and Ultralight Dark Matter
Gravity Surveys Using a Mobile Atom Interferometer
Müller, Peters & Chu Reply
The Atom Interferometric Observatory and Network (AION) for Dark Matter and Gravity Exploration
Neutron Star Mergers and How to Study Them
Measurement of Gravitational Acceleration by Dropping Atoms
Linear Quantum Measurement Theory of Matter-Wave Interferometry
Gravitational Wave Astrophysics with MAGIS Progenitors and Pre-Merger Localizations of Advanced LIGO/Virgo Binary-Merger Events C.C
The 6Th KAGRA International Workshop June 21-23, 2019 Wuhan, China
Perturbation of the Earth's Rotation by Monochromatic Gravitational Waves from Astrophysical Sources
Atomic Experiment for Dark Matter and Gravity Exploration in Space
Atom Interferometers
A Atom Interferometer Observatory and Network (Aion)
SAGE: a Proposal for a Space Atomic Gravity Explorer
MAGIS-100: a New Experiment for Gravitational Wave Detection and Dark Matter Searches with Atom Interferometry
Sources and Technology for an Atomic Gravitational Wave Interferometric Sensor
Influence of Gravitational Waves on Earth Normal Modes
Status and Prospect of KAGRA
Two-Mode Phonon Squeezing in Bose-Einstein Condensates for Gravitational Wave Detection Arxiv:2101.05051V1 [Cond-Mat.Quant-Gas]
Atom Interferometer-Based Gravity Gradiometer Measurements
Stellar Interferometry, Widely Used These Days for Imaging of Astrophysics Objects
NIAC Phase 1 Final Report Direct Probe of Dark Energy Interactions with a Solar System Laboratory
P/2 Raman Atom Interferometer
Multi-Loop Atomic Sagnac Interferometry
A Gravitational Wave Detector Based on an Atom Interferometer
Testing Gravity with Cold Atom Interferometry: Results and Prospects
Gravitational Wave Detection with Atom Interferometry
Matter-Wave Atomic Gradiometer Interferometric Sensor (MAGIS-100)
Arxiv:1412.3210V1 [Physics.Atom-Ph] 10 Dec 2014 Ttoa Ocs H 00CDT Ausgwt a with G Values CODATA 1 of 2010 Uncertainty Standard the Relative Grav- Forces
AEDGE: Atomic Experiment for Dark Matter and Gravity Exploration
Matter-Wave Interferometers • Excellent for Accelerometers, Gyroscopes • Example: Atom Interferometer
Exploring Dark Energy and Gravity in Space Laboratories
Fundamental Physics with Matter Wave Interferometry*
Gravitational-Wave Detection with Matter-Wave Interferometers Based on Standing Light Waves
Detecting Gravitational Waves with Atomic Sensors
Primordial Backgrounds of Relic Gravitons Arxiv:1912.07065V2 [Astro
Matters of Gravity, the Newsletter of the Division of Gravitational Physics of the American Physical Society, Volume 48, December 2016