2012 MICHIGAN quantum SUMMER SCHOOL

Michigan summer school days in Ann Arbor
May 28-june 1, 2012
340 West Hall
University of Michigan
Ann Arbor Michigan

Scientific Program: To download a PDF version, click HERE

 
Monday (5/28)
Tuesday (5/29)
Wednesday (5/30)
Thursday (5/31)
Friday (6/1)
8:30-9:30 am
Breakfast (337 West Hall)
9:30-10:30am
Jeff Kimble (Caltech)
Gretchen Campbell (JQI/NIST/U. of Maryland)
Mark Saffman (University of Wisconsin)
Jungsang Kim (Duke University)
Luming Duan (University of Michigan)
 
Multiple Flavors of Quantum Entanglement
Persistent currents and Josephson Junctions in an atom circuit
Rydberg quantum gates and multi-qubit processing
Quantum Computer Architectures: System-Level Approach to Quantum Computing
Fault tolerant quantum computation
10:30-11:00am
Coffee Break (337 West Hall)
11:00-12:00pm
Mark Saffman (University of Wisconsin)
Jeff Kimble (Caltech)
Dan Gammon (Naval Research Laboratory)
Luming Duan (University of Michigan)
Chris Monroe (University of Maryland)
 
Quantum computation and gates with neutral atoms
Quantum Teleportation to Enable Quantum Networks
Quantum dots in quantum information science
Quantum error correction
Quantum Simulations of Magnetism with Trapped Ions
12:00-1:30pm
Lunch Break
 
1:30-2:30pm
Gretchen Campbell (JQI/NIST/U. of Maryland)
Martin Zwierlein (MIT)
Jungsang Kim (Duke University)
Duncan Steel (University of Michigan)
Canoe trip
 
Superfluid Atom Circuits
Strongly Interacting Fermi Gases (I-III)
Operational understanding of Quantum Error Correction and Fault Tolerance
Coherent Optical Control of Electronic and Nuclear States in a Quantum Dot
2:30-3:30pm
Martin Zwierlein (MIT)
Chris Monroe (University of Maryland)
3 contributed talks
Dan Gammon (Naval Research Laboratory)
 
Strongly Interacting Fermi Gases (I-III)
Ion Traps: There's Plenty of Room at the Bottom
Entangling two quantum dots
3:30-4:00pm
Coffee Break (337 West Hall)
4:00-5:00pm
Martin Zwierlein (MIT)
Mark Saffman (University of Wisconsin)
Dan Gammon (Naval Research Laboratory)
Jungsang Kim (Duke University)
 
Strongly Interacting Fermi Gases (I-III)
Atomic qubits in optical traps and long range Rydberg interactions
Spin in quantum dots
Modular Universal Scalable Ion-Trap Quantum Computer (MUSIQC): Engineering a Quantum Computer
5:00-6:00pm
Gretchen Campbell (JQI/NIST/U. of Maryland)
 
Atomtronics: Superfluid analogs to (superconducting) electronics