Preface
Ⅰ General Concepts
1 Light Forces on Atoms
1.1 Two-Level Atoms
1.2 Adiabatic Elimination
1.3 Dipole and Radiation Pressure Forces
1.4 Dissipation
2 Atomic Cooling
2.1 Ray and Wave Atom Optics
2.2 Doppler Cooling
2.3 Sisyphus Cooling
2.4 Subrecoil Cooling
2.5 Evaporative Cooling
Ⅱ Linear Atom Optics
3 Atomic Beam Collimation and Focusing
3.1 Collimation by Radiation Pressure Force
3.2 Focusing
3.3 Channeling by Standing Waves
3.4 Evanescent Field Mirrors
3.5 Focused Laser Beam Mirror
4 Atomic Diffraction
4.1 Raman-Nath and Bragg Diffraction
4.1.1 Raman-Nath Regime
4.1.2 Bragg Regime
4.2 Stern-Gerlach Regime
4.3 Spontaneous Emission
4.4 Mechanical Gratings
4.5 Atom Interferometers
5 Atomic Traps and Cavities
5.1 Magneto-Optical Traps
5.2 Magnetic Traps
5.2.1 Quadrupole Traps
5.2.2 Ioffe-Pritchard Traps
5.3 Optical Traps
5.4 Gravitational Cavities
5.5 Atomic Waveguides
Ⅲ Nonlinear Atom Optics
6 Collisions
6.1 Near-Resonant Dipole-Dipole Interaction
6.2 Propagation Effects
6.2.1 Free-Space-Like Regime
6.2.2 Large Interatomic Separations, x/c>> F-1
6.3 s-Wave Scattering and Pseudopotentials
6.3.1 s-Wave Scattering
6.3.2 Pseudopotentials
7 Simple Applications
7.1 Dipole-Dipole Interaction in an Atomic Cavity
7.1.1 Momentum Selection Rules
7.1.2 Energy Selection Rules
7.2 Atomic Diffraction by a SchrSdinger Field
Ⅳ Quantum Atom Optics
8 Review of Manybody Theory
8.1 SchrSdinger Field Quantization
8.2 The Hartree Approximation
8.3 Quasiparticles
……
9 Matte-Wave Coherence
10 BOse-Einstein Condensation
11 Atom Lasers
12 Nonlinear Wave Mixing
13 Mixing of Optical and Matter Waves
References
Index
鄂公网安备 42010302001612号 