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DTSTART;TZID=US/Eastern:20170209T153000
DTEND;TZID=US/Eastern:20170209T163000
SUMMARY:The World’s Smallest Extreme Laboratories: Probing QED with Highly Charged Ions -- Prof. Joan Marler
DESCRIPTION:Departmental Colloquium. Highly charged ions (HCIs) are atoms in which all or most of the electrons have been stripped off. The remaining few (or one) electrons exist in the presence of the strong electric field generated from the nucleus. In the case of fully stripped Uranium this field is 1016 V cm-1, orders of magnitude stronger than any external field available in a laboratory. These ultra strong fields make HCIs ideal mini laboratories in which to test physical theories in extreme conditions.
Quantum Electrodynamics (QED) is an extremely powerful and predictive theory describing the interaction of matter and light especially at low energy. However, in the instances where experimental and theoretical results differ there is an opportunity to study non-standard model physics. HCIs are also promising candidates for next generation atomic clocks and searches for time variation in the fundamental "constants". Additionally, while HCIs are rare on Earth, they are commonplace in the universe, in particularly in the high temperature and pressure environments of stars and solar winds. Understanding how to read the photon signature from interactions of HCIs with neutral gases in the universe gives information on the density, temperature and constituents of both.

LOCATION:Physics Auditorium (202)
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