Hot Topics in Quantum Nanoscience
Course Content: Speakers from all over the world will be asked to present pedagogical introductions to their field with an emphasis on basic concepts. Besides such an introductory lecture open for everybody, the participants of this course will have an additional discussion with the speaker discussing a recent paper and the holy grails of the field.
Exemplary topics are topological insulators, mesoscopic quantum gravity, string theory for condensed matter, measurement-based quantum computing, quantum-limited sensors, Majorana Fermions, fast-light with single photons, etc., etc. For an overview of our previous sessions, please click here.
Audience: The tutorial, as a one hour lecture, is open to everybody. A second hour will be reserved as a discussion hour for the registered class of PhD students and postdocs with the lecturer.
Registration: please register for this session by filling in the form in the below - seating is limited!
Preparation: PhD students who have registered for the hot topics course need to prepare for the session by reading the article(s) mentioned in the below.
Date: Friday October 14, 2016
Speaker: Chris Monroe (University of Maryland)
Topic: Quantum Information Science with Trapped Atoms
Host: Dr. Tim Taminiau
Location: Delft University of Technology, TNW (building 22), Lorentzweg 1, Delft.
Room: 1st hour: TN-lecture room G (F207), 2nd hour: TN-Classroom 6 (A251)
Time: 9:30-11:30 hrs
(1) QUANTUM COMPUTING: “Demonstration of a small programmable quantum computer with atomic qubits,” S. Debnath, N. M. Linke, C. Figgatt, K. A. Landsman, K. Wright, and C. Monroe, Nature 536, 63 (2016).
(2) QUANTUM SIMULATION: “Many-body Localization in a Quantum Simulator with Programmable Random Disorder,” J. Smith, A. Lee, P. Richerme, B. Neyenhuis, P. W. Hess, P. Hauke, M. Heyl, D. A. Huse, and C. Monroe, Nature Physics 12, 907–911 (2016).
(3) QUANTUM NETWORKS: “Modular Entanglement of Atomic Qubits using Photons and Phonons,” D. Hucul, I.V. Inlek, G. Vittorini, C. Crocker, S. Debnath, S.M. Clark, and C. Monroe, Nature Physics 11, 37-42 (2015).