| Probability in Classical and Quantum Physics / I: |
| Classical probability theory and stochastic processes / 1: |
| The probability space / 1.1: |
| The [sigma]-algebra of events / 1.1.1: |
| Probability measures and Kolmogorov axioms / 1.1.2: |
| Conditional probabilities and independence / 1.1.3: |
| Random variables / 1.2: |
| Definition of random variables / 1.2.1: |
| Transformation of random variables / 1.2.2: |
| Expectation values and characteristic function / 1.2.3: |
| Stochastic processes / 1.3: |
| Formal definition of a stochastic process / 1.3.1: |
| The hierarchy of joint probability distributions / 1.3.2: |
| Markov processes / 1.4: |
| The Chapman-Kolmogorov equation / 1.4.1: |
| Differential Chapman-Kolmogorov equation / 1.4.2: |
| Deterministic processes and Liouville equation / 1.4.3: |
| Jump processes and the master equation / 1.4.4: |
| Diffusion processes and Fokker-Planck equation / 1.4.5: |
| Piecewise deterministic processes / 1.5: |
| The Liouville master equation / 1.5.1: |
| Waiting time distribution and sample paths / 1.5.2: |
| Path integral representation of PDPs / 1.5.3: |
| Stochastic calculus for PDPs / 1.5.4: |
| Levy processes / 1.6: |
| Translation invariant processes / 1.6.1: |
| The Levy-Khintchine formula / 1.6.2: |
| Stable Levy processes / 1.6.3: |
| References |
| Quantum probability / 2: |
| The statistical interpretation of quantum mechanics / 2.1: |
| Self-adjoint operators and the spectral theorem / 2.1.1: |
| Observables and random variables / 2.1.2: |
| Pure states and statistical mixtures / 2.1.3: |
| Joint probabilities in quantum mechanics / 2.1.4: |
| Composite quantum systems / 2.2: |
| Tensor product / 2.2.1: |
| Schmidt decomposition and entanglement / 2.2.2: |
| Quantum entropies / 2.3: |
| Von Neumann entropy / 2.3.1: |
| Relative entropy / 2.3.2: |
| Linear entropy / 2.3.3: |
| The theory of quantum measurement / 2.4: |
| Ideal quantum measurements / 2.4.1: |
| Operations and effects / 2.4.2: |
| Representation theorem for quantum operations / 2.4.3: |
| Quantum measurement and entropy / 2.4.4: |
| Approximate measurements / 2.4.5: |
| Indirect quantum measurements / 2.4.6: |
| Quantum non-demolition measurements / 2.4.7: |
| Density Matrix Theory / II: |
| Quantum master equations / 3: |
| Closed and open quantum systems / 3.1: |
| The Liouville-von Neumann equation / 3.1.1: |
| Heisenberg and interaction picture / 3.1.2: |
| Dynamics of open systems / 3.1.3: |
| Quantum Markov processes / 3.2: |
| Quantum dynamical semigroups / 3.2.1: |
| The Markovian quantum master equation / 3.2.2: |
| The adjoint quantum master equation / 3.2.3: |
| Multi-time correlation functions / 3.2.4: |
| Irreversibility and entropy production / 3.2.5: |
| Microscopic derivations / 3.3: |
| Weak-coupling limit / 3.3.1: |
| Relaxation to equilibrium / 3.3.2: |
| Singular-coupling limit / 3.3.3: |
| Low-density limit / 3.3.4: |
| The quantum optical master equation / 3.4: |
| Matter in quantized radiation fields / 3.4.1: |
| Decay of a two-level system / 3.4.2: |
| Decay into a squeezed field vacuum / 3.4.3: |
| More general reservoirs / 3.4.4: |
| Resonance fluorescence / 3.4.5: |
| The damped harmonic oscillator / 3.4.6: |
| Non-selective, continuous measurements / 3.5: |
| The quantum Zeno effect / 3.5.1: |
| Density matrix equation / 3.5.2: |
| Quantum Brownian motion / 3.6: |
| The Caldeira-Leggett model / 3.6.1: |
| High-temperature master equation / 3.6.2: |
| The exact Heisenberg equations of motion / 3.6.3: |
| The influence functional / 3.6.4: |
| Non-linear quantum master equations / 3.7: |
| Quantum Boltzmann equation / 3.7.1: |
| Mean field master equations / 3.7.2: |
| Mean field laser equations / 3.7.3: |
| Non-linear Schrodinger equation / 3.7.4: |
| Super-radiance / 3.7.5: |
| Decoherence / 4: |
| The decoherence function / 4.1: |
| An exactly solvable model / 4.2: |
| Time evolution of the total system / 4.2.1: |
| Decay of coherences and the decoherence factor / 4.2.2: |
| Coherent subspaces and system-size dependence / 4.2.3: |
| Markovian mechanisms of decoherence / 4.3: |
| The decoherence rate / 4.3.1: |
| Internal degrees of freedom / 4.3.2: |
| Scattering of particles / 4.3.4: |
| Vacuum decoherence / 4.4: |
| Thermal noise / 4.4.2: |
| Electromagnetic field states / 4.5: |
| Atoms interacting with a cavity field mode / 4.5.1: |
| Schrodinger cat states / 4.5.2: |
| Caldeira-Leggett model / 4.6: |
| General decoherence formula / 4.6.1: |
| Ohmic environments / 4.6.2: |
| Decoherence and quantum measurement / 4.7: |
| Dynamical selection of a pointer basis / 4.7.1: |
| Dynamical model for a quantum measurement / 4.7.2: |
| Stochastic Processes in Hilbert Space / III: |
| Probability distributions on Hilbert space / 5: |
| The state vector as a random variable in Hilbert space / 5.1: |
| A new type of quantum mechanical ensemble / 5.1.1: |
| Stern-Gerlach experiment / 5.1.2: |
| Probability density functionals on Hilbert space / 5.2: |
| Probability measures on Hilbert space / 5.2.1: |
| Distributions on projective Hilbert space / 5.2.2: |
| Expectation values / 5.2.3: |
| Ensembles of mixtures / 5.3: |
| Probability density functionals on state space / 5.3.1: |
| Description of selective quantum measurements / 5.3.2: |
| Stochastic dynamics in Hilbert space / 6: |
| Dynamical semigroups and PDPs in Hilbert space / 6.1: |
| Reduced system dynamics as a PDP / 6.1.1: |
| The Hilbert space path integral / 6.1.2: |
| Diffusion approximation / 6.1.3: |
| Stochastic representation of continuous measurements / 6.1.4: |
| Stochastic time evolution of [epsilon subscript P]-ensembles / 6.2.1: |
| Short-time behaviour of the propagator / 6.2.2: |
| Direct photodetection / 6.3: |
| Derivation of the PDP / 6.3.1: |
| Path integral solution / 6.3.2: |
| Homodyne photodetection / 6.4: |
| Derivation of the PDP for homodyne detection / 6.4.1: |
| Stochastic Schrodinger equation / 6.4.2: |
| Heterodyne photodetection / 6.5: |
| Stochastic collapse models / 6.5.1: |
| Stochastic density matrix equations / 6.6: |
| Photodetection on a field mode / 6.7: |
| The photocounting formula / 6.7.1: |
| QND measurement of a field mode / 6.7.2: |
| The stochastic simulation method / 7: |
| Numerical simulation algorithms for PDPs / 7.1: |
| Estimation of expectation values / 7.1.1: |
| Generation of realizations of the process / 7.1.2: |
| Determination of the waiting time / 7.1.3: |
| Selection of the jumps / 7.1.4: |
| Algorithms for stochastic Schrodinger equations / 7.2: |
| General remarks on convergence / 7.2.1: |
| The Euler scheme / 7.2.2: |
| The Heun scheme / 7.2.3: |
| The fourth-order Runge-Kutta scheme / 7.2.4: |
| A second-order weak scheme / 7.2.5: |
| Examples / 7.3: |
| The driven two-level system / 7.3.1: |
| A case study on numerical performance / 7.4: |
| Numerical efficiency and scaling laws / 7.4.1: |
| The damped driven Morse oscillator / 7.4.2: |
| Applications to quantum optical systems / 8: |
| Continuous measurements in QED / 8.1: |
| Constructing the microscopic Hamiltonian / 8.1.1: |
| Determination of the QED operation / 8.1.2: |
| Stochastic dynamics of multipole radiation / 8.1.3: |
| Representation of incomplete measurements / 8.1.4: |
| Dark state resonances / 8.2: |
| Waiting time distribution and trapping state / 8.2.1: |
| Measurement schemes and stochastic evolution / 8.2.2: |
| Laser cooling and Levy processes / 8.3: |
| Dynamics of the atomic wave function / 8.3.1: |
| Coherent population trapping / 8.3.2: |
| Waiting times and momentum distributions / 8.3.3: |
| Strong field interaction and the Floquet picture / 8.4: |
| Floquet theory / 8.4.1: |
| Stochastic dynamics in the Floquet picture / 8.4.2: |
| Spectral detection and the dressed atom / 8.4.3: |
| Non-Markovian Quantum Processes / IV: |
| Projection operator techniques / 9: |
| The Nakajima-Zwanzig projection operator technique / 9.1: |
| Projection operators / 9.1.1: |
| The Nakajima-Zwanzig equation / 9.1.2: |
| The time-convolutionless projection operator method / 9.2: |
| The time-local master equation / 9.2.1: |
| Perturbation expansion of the TCL generator / 9.2.2: |
| The cumulant expansion / 9.2.3: |
| Perturbation expansion of the inhomogeneity / 9.2.4: |
| Error analysis / 9.2.5: |
| Stochastic unravelling in the doubled Hilbert space / 9.3: |
| Non-Markovian dynamics in physical systems / 10: |
| Spontaneous decay of a two-level system / 10.1: |
| Exact master equation and TCL generator / 10.1.1: |
| Jaynes-Cummings model on resonance / 10.1.2: |
| Jaynes-Cummings model with detuning / 10.1.3: |
| Spontaneous decay into a photonic band gap / 10.1.4: |
| The model and frequency renormalization / 10.2: |
| Factorizing initial conditions / 10.2.2: |
| The stationary state / 10.2.3: |
| Non-factorizing initial conditions / 10.2.4: |
| Disregarding the inhomogeneity / 10.2.5: |
| The spin-boson system / 10.3: |
| Microscopic model / 10.3.1: |
| Relaxation of an initially factorizing state / 10.3.2: |
| Equilibrium correlation functions / 10.3.3: |
| Transition from coherent to incoherent motion / 10.3.4: |
| Relativistic Quantum Processes / V: |
| Measurements in relativistic quantum mechanics / 11: |
| The Schwinger-Tomonaga equation / 11.1: |
| States as functionals of spacelike hypersurfaces / 11.1.1: |
| Foliations of space-time / 11.1.2: |
| The measurement of local observables / 11.2: |
| The operation for a local measurement / 11.2.1: |
| Relativistic state reduction / 11.2.2: |
| Multivalued space-time amplitudes / 11.2.3: |
| The consistent hierarchy of joint probabilities / 11.2.4: |
| EPR correlations / 11.2.5: |
| Continuous measurements / 11.2.6: |
| Non-local measurements and causality / 11.3: |
| Entangled quantum probes / 11.3.1: |
| Non-local measurement by EPR probes / 11.3.2: |
| Quantum state verification / 11.3.3: |
| Non-local operations and the causality principle / 11.3.4: |
| Restrictions on the measurability of operators / 11.3.5: |
| QND verification of non-local states / 11.3.6: |
| Preparation of non-local states / 11.3.7: |
| Exchange measurements / 11.3.8: |
| Quantum teleportation / 11.4: |
| Coherent transfer of quantum states / 11.4.1: |
| Teleportation and Bell-state measurement / 11.4.2: |
| Experimental realization / 11.4.3: |
| Open quantum electrodynamics / 12: |
| Density matrix theory for QED / 12.1: |
| Field equations and correlation functions / 12.1.1: |
| The reduced density matrix / 12.1.2: |
| The influence functional of QED / 12.2: |
| Elimination of the radiation degrees of freedom / 12.2.1: |
| Vacuum-to-vacuum amplitude / 12.2.2: |
| Second-order equation of motion / 12.2.3: |
| Decoherence by emission of bremsstrahlung / 12.3: |
| Introducing the decoherence functional / 12.3.1: |
| Physical interpretation / 12.3.2: |
| Evaluation of the decoherence functional / 12.3.3: |
| Path integral approach / 12.3.4: |
| Decoherence of many-particle states / 12.4: |
| Index |
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