When:
Monday, April 11, 2022
4:00 PM - 5:00 PM CT
Audience: Faculty/Staff - Student - Post Docs/Docs - Graduate Students
Contact:
Samantha Westlake
Group: Physics and Astronomy High Energy Physics Seminars
Category: Academic
Abstract: The neutral pion is the lightest two-quarks strongly interacting particle in Nature. As such, the properties of Pion decay are especially sensitive to the underlying fundamental symmetries of quantum chromodynamics (QCD). In particular, the Pion →gamma decay width is primarily defined by the braking effects of axial and chiral symmetries (chiral anomaly) in QCD. Theoretical activities in this domain over the last years resulted in small corrections to the anomaly with a percent level accuracy for the Pion→gamma decay width. The PrimEx collaboration at Jefferson Laboratory has developed and performed two new experiments to measure the Pion →gamma decay width with high precision using the Primakoff effect. The combined result from two experiments: Gamma(Pion→gamma) = 7.802±0.052(stat.) ±0.105(syst.) eV was recently published in the Science journal. With its 1.50% total uncertainty it represents the most accurate measurement of this fundamental quantity to date. The results of these experiments together with the experimental method will be presented and discussed in this talk.
Speaker: Ashot Gasparian, North Carolina A&T State University
Host: Michael Schmitt
To read more about Professor Gasparian's research: https://inspirehep.net/literature/1832996
*Some scientific characters removed for website readability