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Walther-Meißner-Institut (WMI), Bayerische Akademie der Wissenschaften
Chair for Technical Physics (E23), Technische Universität München

Seminar on
Superconducting Quantum Circuits
SS 2013


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Time:
Tuesday, 14:30 - 16:00 h

Place:
Library
Walther-Meißner-Institute
Walther-Meißner-Str. 8
Research Campus Garching

Date Speaker Title
16.04.2013
Deppe, Marx, Gross
Walther-Meißner-Institut
Bayerische Akademie der Wissenschaften (BAdW) and Technische Universität München (TUM)
Preliminary discussion and assignment of topics
23.04.2013
Elisabeth Hoffmann
WMI
Vacuum Rabi Splitting in a Semiconductor Circuit QED System
30.04.2013
Peter Eder
WMI
Realization of Deterministic Quantum Teleportation with Solid State Qubits
07.05.2013
no talk
14.05.2013
Jan Goetz
WMI
Simulating accelerated atoms coupled to a quantum field
21.05.2013
Whitsun holiday
28.05.2013
Ling Zhong
WMI
A wideband, low-noise superconducting amplifier with high dynamic range
04.06.2013
Hans-Peter Gürtner / Stefan Gantner
TUM
Superconducting resonators for experiments with flux qubits / Setup of a microwave interferometer
11.06.2013
Edwar Xie / Dominik Müller
WMI / TUM
Nanoscale Josephson junction fabrication for flux qubits / Atomic force microscopy on nanoscale Josephson junctions
18.06.2013
Karl Friedrich Wulschner
WMI
Probing Correlations, Indistuigishability and Entanglement in Microwave Two-Photon Interference
25.06.2013
Udo Schaumburger
TUM
Catch and Release of Microwave Photon States
02.07.2013
Matthias Pernpeitner
WMI
Coherent state transfer between itinerant microwave fields and a mechanical oscillator
09.07.2013
Max Haeberlein
WMI
Multimode mediated qubit-qubit coupling and dark-state symmetries in circuit quantum electrodynamics
16.07.2013
Ferdinand Loacker
WMI
Towards on-chip superconducting interferometer


Seminar description:

Using superconducting quantum circuits on silicon chips we make artificial atoms, resonators and waveguides. This "quantum optics on a chip" has become a prospering field of research in recent years. On the one hand, it can be used to study fundamental light-matter coupling similar to traditional quantum optics. On the other hand, these systems provide large potential for solid state based quantum information systems and quantum simulation.

Within the seminar students can give talks on current topics related to solid-state quantum information systems. The seminar is relevant for the special courses on "Superconductivity and Low Temperature Physics". The seminar is suitable for bachelor and master students in the 6. semester and higher. Seminar talks can be given either in English or in German.

List of open topics for seminar talks in SS 2013:

  1. Simulating accelerated atoms coupled to a quantum field (see Phys. Rev. A 85, 022511 (2012))
  2. Realization of Deterministic Quantum Teleportation with Solid State Qubits (see arXiv:1302.5621)
  3. Catch and Release of Microwave Photon States (see Phys. Rev. Lett. 110, 107001 (2013))
  4. Vacuum Rabi Splitting in a Semiconductor Circuit QED System (see Phys Rev. Lett. 110, 066802 (2013))
  5. A wideband, low-noise superconducting amplifier with high dynamic range (see Nature Physics 8, 623-627 (2012))
  6. Multimode mediated qubit-qubit coupling and dark-state symmetries in circuit quantum electrodynamics (see Phys. Rev. A 83, 063827 (2011))
  7. Probing Correlations, Indistuigishability and Entanglement in Microwave Two-Photon Interference (see arXiv:1301.4458)
  8. Improved superconducting qubit coherence using titanium nitride (see arXiv:1303.4071)
  9. Coherent state transfer between itinerant microwave fields and a mechanical oscillator (see Nature 495, 210-214 (2013))



For general information on the teaching program of TUM see TUMonline.