260075 VO Experiments in Quantum Optics and Quantum Information (2019W)

All content of the lectures and exercises.

* Reminder: Advanced Atomic Physics and Atom Light Interaction
* Model Systems of Quantum Optics and Information: 2-level systems, quantum harmonic
oscillator, quantized light field
* Ultracold Matter I: Laser cooling, Trapping of atoms and ions
* Ultracold Matter II: Bose Einstein Condensates, Lattices, Model Systems of Condensed
Matter Physics
* Massive superpositions I: Matter-waves: Foundations (neutrons, electrons, atoms,
macromolecules)
* Massive superpositions II: Matter-wave assisted measurements (fundamental constants,
inertial forces, biophysical chemistry)
* Internal state coherence I:Atomic Clocks: From Rabis Beam Machine to Lattice Clocks and
Quantum Logic Clocks
* Internal state coherence II:NV Center based quantum information processing and sensing:
single photons and B-sensors
* Nanomechanics /Nanoparticle Quantum Optics
* Elementary Quantum Info Systems I: Rydberg atoms in Cavities
* Elementary Quantum Info Systems II: Superconducting quantum circuits
* Elementary Quantum Info Systems III: Ion trap based quantum optics & information
processing
* Elementary Quantum Info Systems IV: Entangled atoms and NV centers
* Elementary Quantum Info Systems IV: NMR Quantum Computing with molecules
* Bell Experiments (all generations, steering, loophole free, etc)
* Quantum Teleportation, Quantum Swapping, GHZ, optical BSA
* Quantum Communication, QKD, RandomAccess Codes, One-Time-Programms, oblivous
transfer
* Quantum Repeaters, Atom-Light, DLCZ, all-optical
* Quantum Computing Concepts; Architectures, Physical Systems, Benchmarks
(Google/IBM/ions)
* Photonic Quantum Computing (KLM, HOM, 2-photon gates, Graphene-based gates)
* Photonic Quantum Computing (MBQC, Cluster States, BQC, Quantum Dots,
Flow,Repeaters)
* Quantum Machine Learning (Agents, experimental implementations, Neuromorphic
networks etc)
* Photonic Quantum Technology + Photon-Spin Systems (Quantum Dots, Spin Systems, etc)
* Quantum Simulation (Digital, Adiabatic, Trotter extension, atomic lattices, photons spin
frustration, ions gauge field)
* Quantum Metrology (N00N states, Burke states, squeezed states LIGO)
* Experiments at the interface of quantum and gravity
* Quantum Causality

While presence in the exercises is no formal requirement, the material of the exercises is part of the final test. Participation is highly recommended