Calendar

Add to Calendar 11/28/2018 1:00 pm 11/28/2018 America/Chicago QI/AMO Seminar - "Measuring inertial forces with ultracold neutral atoms" DESCRIPTION:

The spin degrees of freedom of ultracold neutral atoms in their ground electronic states provide a natural platform for precision metrology of inertial forces.  Given their long coherence times, weak interactions with laboratory environments, and our ability to control them with magneto-optical fields, numerous experiments have shown record-breaking advances in both applied and scientific pursuits.  Beyond this, the recent introduction of strong, entangling interactions via Rydberg states, offers the allure of creating optimal quantum states for metrology and quantum information processing.  A central theme in our research is to expand the metrological utility of atom interferometers with novel techniques, wherein we have investigated a simplified atom interferometer using a warm vapor, a high-data rate technique for dynamic scenarios, and a single atom force sensor.  Expanding this theme further, we have developed a Rydberg-dressed interaction between the spins of individually trapped cesium atoms, which has the advantage of being both tunable and strong.  We employ this interaction to produce entanglement between neutral atoms, and investigate the potential of this technique for high-fidelity quantum control and measurement.

This work was supported by the Laboratory Directed Research and Development program at Sandia National Laboratories.

\n\nSPEAKER: Grant Biedermann, Sandia National Labs
280 MRL false

QI/AMO Seminar - "Measuring inertial forces with ultracold neutral atoms"

Speaker Grant Biedermann, Sandia National Labs
Date: 11/28/2018
Time: 1 p.m.
Location: 280 MRL
Event Contact: Betsy Greifenkamp
greifenk@illinois.edu
Sponsor: Department of Physics
Event Type: Seminar/Symposium
 

The spin degrees of freedom of ultracold neutral atoms in their ground electronic states provide a natural platform for precision metrology of inertial forces.  Given their long coherence times, weak interactions with laboratory environments, and our ability to control them with magneto-optical fields, numerous experiments have shown record-breaking advances in both applied and scientific pursuits.  Beyond this, the recent introduction of strong, entangling interactions via Rydberg states, offers the allure of creating optimal quantum states for metrology and quantum information processing.  A central theme in our research is to expand the metrological utility of atom interferometers with novel techniques, wherein we have investigated a simplified atom interferometer using a warm vapor, a high-data rate technique for dynamic scenarios, and a single atom force sensor.  Expanding this theme further, we have developed a Rydberg-dressed interaction between the spins of individually trapped cesium atoms, which has the advantage of being both tunable and strong.  We employ this interaction to produce entanglement between neutral atoms, and investigate the potential of this technique for high-fidelity quantum control and measurement.

This work was supported by the Laboratory Directed Research and Development program at Sandia National Laboratories.

To request disability-related accommodations for this event, please contact the person listed above, or the unit hosting the event.

Event Mailing List

Receive Illinois Physics events weekly in your inbox.

Sign-up!


Remove me!