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Table of Contents
Intro; Preface; References; Acknowledgments; Contents; About the Author; 1 Introduction; References; 2 Trapping Ions with Light Fields; 2.1 Prerequisites for Optical Trapping Experiments; 2.2 Methodology; Paul Trap; Electrostatic Field Configuration; Stray Electric Field Compensation; Temperature Measurement; Optical Trapping Protocol; Optical Trapping Probabilities; References; 3 Optical Dipole Traps for Single Ions; 3.1 Far-Off-Resonance Optical Traps for Ions; 3.2 Lifetime of an Ion in a Further Detuned Optical Trap; 3.3 Heating Rate Due to Ambient Fields; References
4 Optical Trapping of Coulomb Crystals4.1 Temperature of Ions in a Dipole Trap; 4.2 Accessing Vibrational Modes of Coulomb Crystals in OpticalTraps; 4.3 Limitations and Prospects; References; 5 Summary and Outlook; 5.1 State-Selective Potentials; 5.2 Higher Dimensional Coulomb Crystals in Optical Lattices; 5.3 Metrological Applications; References; Index
4 Optical Trapping of Coulomb Crystals4.1 Temperature of Ions in a Dipole Trap; 4.2 Accessing Vibrational Modes of Coulomb Crystals in OpticalTraps; 4.3 Limitations and Prospects; References; 5 Summary and Outlook; 5.1 State-Selective Potentials; 5.2 Higher Dimensional Coulomb Crystals in Optical Lattices; 5.3 Metrological Applications; References; Index