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Add to Calendar 3/28/2018 1:00 pm 3/28/2018 America/Chicago QI/AMO Seminar - "A Brief History of Time(keeping): Metrology, quantum simulation, and tests of relativity with optical lattice clocks" DESCRIPTION:

Optical lattice clocks (OLCs) are now the most stable and accurate timekeepers in the world, with fractional accuracies equivalent to neither losing nor gaining a second over the entire age of the universe. This unprecedented level of metrological precision offers sensitivity to new quantum, many-body, and fundamental physics effects, opening the door to exciting and unusual applications. This talk will provide an introduction to how and why time is measured, with an emphasis on OLCs and their applications. I will discuss recent progress on pushing OLCs to even greater levels of precision, as well as prospects for future improvement. I also will present results from a recent experiment in which we harnessed the precision of an OLC to simulate condensed matter phenomena, including spin-orbit coupling in the presence of strong interactions. Finally, I will give a brief overview of emerging applications of OLCs, including research taking place at the University of Wisconsin - Madison into using clocks for gravitational wave detection, tests of general relativity, and searches for physics beyond the Standard Model. 

\n\nSPEAKER:

Shimon Kolkowitz, University of Wisconsin - Madison

276 LLP

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QI/AMO Seminar - "A Brief History of Time(keeping): Metrology, quantum simulation, and tests of relativity with optical lattice clocks"

Speaker Shimon Kolkowitz, University of Wisconsin - Madison
Date: 3/28/2018
Time: 1 p.m.
Location:

276 LLP

Event Contact: Betsy Greifenkamp
greifenk@illinois.edu
Sponsor:

Department of Physics

Event Type: Seminar/Symposium
 

Optical lattice clocks (OLCs) are now the most stable and accurate timekeepers in the world, with fractional accuracies equivalent to neither losing nor gaining a second over the entire age of the universe. This unprecedented level of metrological precision offers sensitivity to new quantum, many-body, and fundamental physics effects, opening the door to exciting and unusual applications. This talk will provide an introduction to how and why time is measured, with an emphasis on OLCs and their applications. I will discuss recent progress on pushing OLCs to even greater levels of precision, as well as prospects for future improvement. I also will present results from a recent experiment in which we harnessed the precision of an OLC to simulate condensed matter phenomena, including spin-orbit coupling in the presence of strong interactions. Finally, I will give a brief overview of emerging applications of OLCs, including research taking place at the University of Wisconsin - Madison into using clocks for gravitational wave detection, tests of general relativity, and searches for physics beyond the Standard Model. 

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

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