Schedule


Hybrid Approaches to Scalable Quantum Information Systems May 24-26, 2007 ITAMP, 60 Garden Street, Cambridge Ma 0213 *To view the talks you will need to download a free RealPlayer from http://www.real.com and go to the "Webcast" link below.
[THURSDAY] [FRIDAY] [SATURDAY][WORKSHOP HOME]
Thursday, May 24, 2007 Maxwell Dworkin
8:30–9:00	Coffee and Pastries
9:00–9:15	Introduction and Welcome: Workshop Organizers, Tommaso Calarco, Mikhail Lukin, Robert Schoelkopf, and Vladan Vuletic		Webcast
Session I: Ion-trap Hybrid Systems Chair: Tommaso Calarco
9:15–9:50	David Wineland Charged Mechanical Oscillators Coupled to Various Quantum Systems	Abstract	Webcast
9:50–10:25	Rainer Blatt Quantum Information Processing with Trapped Ca+ Ions	Abstract	Webcast
10:25–11:00	Chris Monroe Linking Trapped Ions and Photons	Abstract	Webcast
11:00–11:30	Morning Break
Session II: Atom Chips
11:30–12:05	Jörg Schmiedmayer A Quantum Interface between Atoms and Photons	Abstract	Webcast
12:05–12:40	Jakob Reichel Strong Atom-Photon Coupling on an Atom Chip	Abstract	Webcast
12:40–1:55	Lunch Break
Session III: Atom-ion Systems Chair: Vladan Vuletic
2:00–2:35	Johannes Hecker Denschlag An Ion in a Sea of Ultracold Neutral Atoms	Abstract	Webcast
2:35–3:10	Marko Cetina Bright Source of Atoms and Ions for QIP and Ultracold Collision Measurements	Abstract	Webcast
3:00–3:30	Afternoon Break
Session IV: Theory
3:40–4:15	Seth Lloyd Quantum Internet Protocols and Quantum Hacking	Abstract	Webcast
4:15–4:50	LuMing Duan Scalable Quantum Information through Probabilistic Photon Coupling	Abstract	Webcast
4:50–5:25	Jacob Taylor Small Quantum Systems for Large-scale Processing	Abstract	Webcast
5:30–7:00	Reception

Friday, May 25, 2007 Phillips Auditorium
8:30–9:00	Coffee and Pastries
Session V: Solid-state hybrid systems
9:00–9:35	Charles Marcus The Nuclear Environment in a GaAs Quantum Dot System	Abstract	Webcast
9:35–10:10	David Cory Electron/Nuclear Spin Approaches to QIP	Abstract	Webcast
10:10–10:45	Yoshihisa Yamamoto: Ultra-fast Optical Control of Donor Bound Electron Spins in Semiconductors for Quantum Repeaters and Quantum Computers	Abstract	Webcast
10:45–11:15	Morning Break
11:15–11:50	Gurudev Dutt Quantum Register Based on Individual Electronic and Nuclear Spin Qubits in Diamond	Abstract	Webcast
11:50–12:25	Irfan Siddiqi Quantum Measurement with the Josephson Bifurcation Amplifier	Abstract	Webcast
12:25–1:55	Lunch Break
Session VI: Cavity QED
2:00–2:35	Jack Harris Coupling Micromechanical Oscillators to High-finesse Optical Cavities via Radiation Pressure	Abstract	Webcast
2:35–3:10	Tobias Kippenberg Radiation Pressure Cooling of a Micromechanical Oscillator	Abstract	Webcast
2:35–3:45	Jelena Vuckovic Quantum Dot-Photonic Crystal Chips for Quantum Information Processing	Abstract	Webcast
3:45–4:15	Afternoon Break
4:15–4:50	Andrew Houck Generating and Detecting Single Photons in a Microwave Circuit	Abstract	Webcast
4:50–5:25	Alexey Akimov Single Plasmons Generation in Nanowires Coupled to Quantum Dots	Abstract	Webcast

Saturday, May 26 Phillips Auditorium
8:30–9:00	Coffee and Pastries
Session VII: Atomic and molecular dipoles Chair: Susanne Yelin
9:00–9:35	John Doyle Cold Polar Molecules	Abstract	Webcast
9:35–10:10	David DeMille Trapped Polar Molecules as Qubits	Abstract	Webcast
10:10–10:40	Morning Break
10:40–11:15	Robin Côté Quantum Computing with Switchable Dipoles	Abstract	Webcast
11:15–11:50	Gilles Nogues Rydberg Atoms, Cavities and Cryogenic Traps for Information Processing.	Abstract	Webcast
11:50–12:25	Peter Rabl Molecular Dipolar Crystals: Protected Quantum Memories for Hybrid Quantum Information Processing	Abstract	Webcast
12:25–1:55	Lunch Break
Session VIII: Nanomechanical resonators
2:00–2:35	Keith Schwab Nanomechanics at Quantum Limits: Latest Results and Future Plans	Abstract	Webcast
2:35–3:10	Markus Aspelmeyer Laser-Cooling and Entangelement with Micromirrors: Towards Quantum-Opto-Mechanics.	Abstract	Webcast
3:10–3:40	Afternoon Break
3:40–4:15	Nergis Mavalvala Optical Cooling of Gram-Scale Mirrors	Abstract	Webcast
4:15–4:50	Michael Moore A generalized approach to interaction- and measurement-free quantum logic gates based on the quantum Zeno effect	Abstract	Webcast
4:40–5:20	Concluding Remarks:

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