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Laser detuning
Polarization Squeezing of Light by Single Passage Through an Atomic Vapor
Multichannel Cavity Optomechanics for All-Optical Amplification of Radio Frequency Signals
Rydberg Excitation of Single Atoms for Applications in Quantum Information and Metrology Aaron Hankin
Travis Dissertation
Optical Binding with Cold Atoms
Phase Steps and Resonator Detuning Measurements in Microresonator Frequency Combs
1 Quantum Optomechanics
A Tunable Doppler-Free Dichroic Lock for Laser Frequency Stabilization
Quantum Effects in Optomechanical Systems
Introduction to Optical Resonators
Arxiv:2004.02848V3 [Physics.Atom-Ph] 10 Nov 2020 4 and 3 Vibrational Manifolds and Repump Them Back Into and Spontaneous Emission Events
Atom Optics Using an Optical Waveguide- Based Evanescent Field
Arxiv:0802.0857V1 [Physics.Atom-Ph] 6 Feb 2008
Squeezed Light from a Silicon Micromechanical Resonator
Abstract Light Shift Measurements of Cold
Cavity Enhanced Nonlinear Optics for Few Photon Optical Bistability
Cavity Opto-Mechanics
Laser Cooling of Solids, Pan Stanford Publishing, Chapter 6 (2016)
Top View
Suppression of Extraneous Thermal Noise in Cavity Optomechanics
Trapping Atoms Using Nanoscale Quantum Vacuum Forces
Cavity Optomechanics with Silica Toroidal Microresonators Down to Low Phonon Occupancy
Arxiv:1706.04851V3 [Physics.Atom-Ph]
An Introduction to Cavity Optomechanics
Quantum Computing with Trapped Ions
Set-Up of a New Laser System for a Quantum Magnetism Experiment
Spatial Multiplexing of Squeezed Light by Coherence Diffusion
Atomic Transitions in Strong Magnetic Fields (>20
Multimode Optomechanical Dynamics in a Cavity with Avoided Crossings
Laser Cooling by Collisional Redistribution of Radiation
Advancing Neutral Atom Quantum Computing: Studies of One-Dimensional and Two-Dimensional Optical Lattices on a Chip
Arxiv:2003.06970V1 [Quant-Ph] 16 Mar 2020 fidelity
Collisional Redistribution Laser Cooling of a High Pressure Atomic
Quantum Computer with Trapped Ions
Detuning-Enhanced Cavity Spin Squeezing
High-Precision Laser Stabilization Via Optical Cavities
Loading and Cooling in an Optical Trap Via Hyperfine Dark States
At the Core of the Experiment Is a Fabry-Perot Cavity Formed
Optomechanical Photon Shuttling Between Photonic Cavities
The Role of Hyperfine Pumping in Multilevel Systems Exhibiting
Theoretical Calculation of Saturated Absorption for Multilevel Atoms
Review of Cavity Optomechanical Cooling∗
Matter-Wave Atomic Gradiometer Interferometric Sensor (MAGIS-100)
Magneto Optical Trapping of Potassium-39 in a Ring Cavity by Komal Pahwa
Laser Cooling and Trapping of Atoms
Far Off-Resonance Laser Frequency Stabilization Technology
From the Lugiato-Lefever Equation to Microresonator Based Soliton Kerr Frequency Combs
Laser Locking with Doppler-Free Saturated Absorption Spectroscopy
Laser Cooling and Trapping of Neutral Atoms*
Arxiv:1902.05628V1 [Physics.Atom-Ph] 14 Feb 2019 Been Transformed in Recent Years
Relative Intensity Squeezing by Four-Wave Mixing in Rubidium
Demonstration of a Quantum Logic Gate in a Cryogenic Surface-Electrode Ion Trap
Theoretical Calculation of Saturated Absorption Spectra for Multi-Level Atoms
Observation of a Red-Blue Detuning Asymmetry in Matter-Wave Superradiance
Laser Cooling, Atom Traps
Quantum Computing with Trapped Ions
Dispersion Enhanced Tunability of Laser-Frequency Response to Its Cavity-Length Change