|
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 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 |
|
|
|