Nuclear Spin-Dependent Parity Violation in Light Polyatomic Molecules

Eric Norrgard; Daniel Barker; Anastasia Borschevsky; Stephen Eckel; James Fedchak; Yongliang Hao; Nikolai Klimov; Julia Scherschligt

Nuclear Spin-Dependent Parity Violation in Light Polyatomic Molecules

ORAL

Abstract

Linear polyatomic molecules are highly sensitive probes of nuclear spin-dependent parity violation (NSDPV). Measurements in these systems will enable experimental determination of poorly known electroweak coupling parameters. To date, measurements have focused on heavy nuclei where the NSDPV effect is enhanced by relativistic and collective nuclear effects. However, cold trapped polyatomic molecules should allow for the NSDPV effect to be measured to 10{\%} uncertainty~in nuclei as light as Be. We focus on four light species: Be and Mg cyanide and isocyanide. Importantly, molecular and nuclear calculations are highly accurate for these light systems, allowing experiment to directly test Standard Model predictions.

April 18, 2020, 11:09 AM – April 18, 2020, 11:21 AM

Authors

Eric Norrgard
- National Institute of Standards and Technology, University of Maryland-College Park
Daniel Barker
- National Institute of Standards and Technology, University of Maryland-College Park
Anastasia Borschevsky
- Van Swinderen Institute for Particle Physics and Gravity, University of Groningen
Stephen Eckel
- National Institute of Standards and Technology
James Fedchak
- National Institute of Standards and Technology
Yongliang Hao
- Van Swinderen Institute for Particle Physics and Gravity, University of Groningen
Nikolai Klimov
- National Institute of Standards and Technology
Julia Scherschligt
- National Institute of Standards and Technology