Quantum Assisted Sensing And Readout (QuASAR)/Optical Radiation Cooling
and Heating in Integrated Devices (ORCHID) Program Review
Defense Advanced Research Projects Agency
August 27-31, 2012
Santa Barbara, CA
AGENDA
Monday, August 27, 2012
8:00 – 9:00
Registration
9:00 – 9:10
9:10 – 10:40
Opening Remarks
– Jamil Abo-Shaeer, DARPA
Development of Diamond Nanoscale Magnetometer using Quantum
Assisted Sensing and Readout
– Ron Walsworth, Harvard
10:40 – 11:10
Break
11:10 – 11:55
Micromagnetic Imaging with Hybrid Quantum Sensors
– Mukund Vengalattore, Cornell
11:55 – 1:10
Lunch and Discussion
1:10 – 2:10
Quantum BioImaging with Diamond Spins (QuBIDS)
– David Awschalom, UCSB
2:10 – 2:40
Break
2:40 – 3:10
A Rydberg Atom Electric Field Sensor
– James Shaffer, Oklahoma
YFA - Quantum Memories and Ultrasensitive Spin Detection Using
Superconducting Circuits
– David Schuster, Chicago
YFA - Chip-Integrated Timing and Inertial Measurement Using Electron
Spins in Diamond
– Dirk Englund, Columbia
3:10 – 3:30
3:30 – 3:50
3:50
Adjourn
4:05 – 4:35
4:35 – 4:50
4:50 – 5:05
5:05 – 5:20
Harvard Sidebar
Cornell Sidebar
UCSB Sidebar
Oklahoma Sidebar
Quantum Assisted Sensing And Readout (QuASAR)/Optical Radiation Cooling
and Heating in Integrated Devices (ORCHID) Program Review
Defense Advanced Research Projects Agency
August 27-31, 2012
Santa Barbara, CA
AGENDA
Tuesday, August 28, 2012
8:00 – 9:00
Registration
9:00 – 9:30
Ensemble Magnetometry with Nitrogen Vacancy Centers in Diamond
– Dmitry Budker, UC Berkeley
Slow Beam Optical Atomic Clock (SBOC)
– Tom Loftus, AOSense
9:30 – 10:00
10:00 – 10:30
Break
10:30 – 11:45
Optical-transition clocks with micro-fabricated frequency combs for
performance beyond the standard quantum limit
– Vladan Vuletic, MIT
11:45 – 1:00
Lunch and Discussion
1:00 – 1:45
Optical frequency comb system on-a-chip for measurements, distribution,
and applications of atomic time standards
– Scott Diddams, NIST
USNO Effort
– USNO
1:45 – 2:05
2:05 – 2:35
2:10 – 2:25
Break
NIST-Diddams Sidebar
2:35 – 3:20
Mobile quantum-logic clock
– Till Rosenband, NIST
3:20 – 3:40
Towards a Solid-State Optical Clock Based on a Thorium Doped Crystal
– Eric Hudson, UCLA
3:40
Adjourn
3:50 – 4:05
4:05 – 4:20
4:20 – 4:35
4:35 – 4:50
UC Berkeley Sidebar
AOSense Sidebar
MIT Sidebar
NIST-Rosenband Sidebar
Quantum Assisted Sensing And Readout (QuASAR)/Optical Radiation Cooling
and Heating in Integrated Devices (ORCHID) Program Review
Defense Advanced Research Projects Agency
August 27-31, 2012
Santa Barbara, CA
AGENDA
Wednesday, August 29, 2012
8:00 – 9:00
Registration
9:00 – 9:20
YFA - Interfacing trapped ions with a tank circuit for hybrid quantum
devices
– Hartmut Haeffner, UC Berkeley
YFA - Cavity-based atomic rotation and acceleration sensor
– Holger Mueller, UC Berkeley
Chip-Scale, Ultra-Sensitive Opto-Mechanical Acceleration and Force
Sensors
– Oskar Painter, Caltech
9:20 – 9:40
9:40 – 10:10
10:10 – 10:40
Break
10:40 – 11:40
Atom-Photon-Electro-Mechanical interfaces for quantum force and field
measurements
– Eugene Polzik, Niels Bohr Institute
11:40 – 1:00
Lunch and Discussion
1:00 – 2:15
Integrated Micro- and Nano-Optomechanical Devices for Sensors,
Oscillators, and Photonics
– Oskar Painter, Caltech
Break
2:15 – 2:45
2:45 – 3:30
Circuit Cavity Optomechanics for Cooling and Amplification on a CMOS
Chip
– Hong Tang, Yale
4:00 – 6:00
POSTER SESSION
6:00
Adjourn
3:45 – 4:00
4:00 – 4:15
4:15 – 4:45
4:45 – 5:15
Caltech (QuASAR) Sidebar
Niels Bohr Sidebar
Yale Sidebar
Caltech (ORCHID) Sidebar
Quantum Assisted Sensing And Readout (QuASAR)/Optical Radiation Cooling
and Heating in Integrated Devices (ORCHID) Program Review
Defense Advanced Research Projects Agency
August 27-31, 2012
Santa Barbara, CA
AGENDA
Thursday, August 30, 2012
8:00 – 9:00
Registration
9:00 – 9:30
Optomechanical Light-Matter Inteface with Optical Wavelength
Conversion
– Hailin Wang, Oregon
Q-Boosted Optomechanical Resonators
– Clark Nguyen, UC Berkeley
9:30 – 10:15
10:15 – 10:45
Break
10:45 – 11:30
Ultrahigh Z, X-Band Oscillator by Integrated Opto-Mechano-Electro System
– Tal Carmon, Michigan
11:30 –12:00
Controlling Quantum Noise via Laser-Cooled Optomechanical
– Jack Harris, Yale
12:00 – 1:15
Lunch and Discussion
1:15 – 2:00
Mechanically Mediated Quantum-State Transfer between Microwaves and
Optical Photons
– Cindy Regal, Colorado
Beating the Standard Quantum Limit
– Ray Simmonds, NIST
2:00 – 2:20
2:20
Adjourn
2:30 – 3:00
3:00 – 3:30
3:30 – 4:00
4:00 – 4:30
4:30 – 5:00
Oregon Sidebar
Berkeley Sidebar
Michigan Sidebar
Yale Sidebar
Colorado Sidebar
Quantum Assisted Sensing And Readout (QuASAR)/Optical Radiation Cooling
and Heating in Integrated Devices (ORCHID) Program Review
Defense Advanced Research Projects Agency
August 27-31, 2012
Santa Barbara, CA
AGENDA
Friday, August 31, 2012
8:00 – 9:00
Registration
9:00 – 9:45
Theory of Quantum Optomechanical Systems
– Aashish Clerk, McGill
Manipulating the Quantum Fluctuations for a Mechanical Device
– Keith Schwab, Caltech
9:45 – 10:30
10:30 – 11:00
Break
11:00 – 11:45
Hybrid Quantum Bit-Coupled Optomechanics
– Andrew Cleland, UCSB
Closing Remarks
– Jamil Abo-Shaeer, DARPA
11:45 – 12:00
12:00 – 1:15
Lunch and Discussion
1:15
Adjourn
1:15 – 1:30
1:30 – 2:00
2:00 – 2:30
Theory Sidebar
Caltech Sidebar
UCSB Sidebar