Participants and titles of the talks
Expected Speakers
- Dr Marc Cheneau (group Bloch):
"Probing Strongly Correlated Many-Body Systems at the Single-Atom Level"
- S. Glaser and R. Marx:
"Optimal Control of Spin Dynamics with Applications to Untying Knots by NMR"
- D. Gross:
"Quantum Marginals"
- F. Jelezko:
"Colour Centres in Diamond as Local Field Centres"
- M. Mirrahimi:
- T. Osborne:
"Quantum Fields, Continuous Matrix-Product States, and Cavity QED"
- JM. Raimond:
- J. Schmiedmayer:
"Non-Equilibrium Quantum Dynamics and Pre-Thermalization"
- N. Schuch:
"Symmetry Protection of One-Dimensional Phases"
- B. Terhal:
"Adiabatic Quantum Computation and Stochastic Hamiltonians"
- G. Toth:
"Optimal Spin Squeezing Inequalities for Arbitrary Spin"
- M. Wolf:
- J. Wrachtrup:
"Entanglement Dynamics in Small Spin Clusters"
- Dr Sebastian Diehl (group Zoller):
"Quantum States, Phase Transitions, and Topology in Open Many-Body Quantum Systems"
Further Guests apart from QCCC
- Dr Ville Bergholm
- Dr Gunther Dirr
- Christian Gogolin
- Michael-James Kastoryano
- Dr Nikolai Kiesel
- Daniel Lercher
- Dr David Reeb
- Volkher Scholz
- Oleg Szehr
- Dr Robert Zeier
The QCCC People
- Julian Hofmann
(Ludwig-Maximilians-Universität)
"Entangling two atoms"
- Corey O'Meara
(Technische Universität München)
"Illustrating the Geometry of Coherently Controlled Unital + Non-Unital Quantum Channels"
- Christine
Muschik
(Max-Planck-Institute for Quantum Optics):
"Entanglement by Dissipation"
- Sebastian Nauerth
(Ludwig-Maximilians-Universität)
- Fernando Pastawski
(Max-Planck-Institute for Quantum Optics)
"Prepare and Measure Quantum Memories: Implementations and Applications"
- Anika Pflanzer
(Max-Planck-Institute for Quantum Optics)
"Optomechanics with levitating dielectrics: Preparing large quantum superpositions"
- Christian Sames
(Max-Planck-Institute for Quantum Optics)
"Revealing the motional and internal dynamics of a cavity-QED system"
- Thomas
Schulte-Herbrüggen
(Technische Universität München)
- Christian Schwemmer
(Max-Planck-Institute for Quantum Optics)
"Permutationally Invariant Tomography of Dicke States"
- Konrad
Waldherr
(Technische Universität München)