The 59th Winter Nuclear & Particle Physics Conference (WNPPC2022)

Session

Scattering and Electrons

17 Feb 2022, 10:00

virtual

Conveners

Scattering and Electrons

• Yue Zhang

5. Simulating an Active Target Time Projection Chamber

Alicia Postuma

17/02/2022, 10:00

QCD and Hadrons

The A2 Collaboration uses the Mainz Microtron to conduct measurements probing hadron structure. An upcoming experiment will study Compton scattering off of helium-3 to obtain the polarizabilties of the neutron. To get a full picture of these events and reduce backgrounds, an active target is required. We intend to use a compact Time Projection Chamber (TPC) for this purpose, in combination...

31. Bayesian Method in Parity-violating Electron Scattering Experiments

Mrs Fatemeh Gorgannejad (University of Manitoba )

17/02/2022, 10:12

Physics Beyond the Standard Model

The parity-violating electron scattering technique can be used to probe new physics beyond the Standard Model. High precision measurements of the parity-violating asymmetry with a variety of kinematics and targets enable scientific reach in particle physics, nuclear physics, and hadronic physics. To achieve precise measurements, experimental corrections to the measured asymmetries are...

62. Leptonic Tensor Approach to Calculate Scattering Cross Sections for Distinguishable Target Particles

Mahumm Ghaffar (Memorial University of Newfoundland)

17/02/2022, 10:24

Electroweak and Higgs Physics

We perform Next-to-the Leading Order (NLO) and quadratic level (NNLO) covariant approach to get the leptonic tensor for a general QED scattering process with a distinguishable target particle. The Feynman diagram of the scattering process in question is divided into upper (leptonic) and lower (either leptonic or hadronic) parts. The QED quadratic leptonic tensor is of the order of ${\alpha }^3$...

47. Update of the Jefferson Lab Eta Factory and the Search for BSM Physics

Azizah Mahmood (University of Regina)

17/02/2022, 10:36

Physics Beyond the Standard Model

The planned Jefferson Lab Eta Factory (JEF) experiment relies on the construction of an updated electromagnetic calorimeter in the forward region of the GlueX detector in Hall D, to detect photons from eta and eta’ meson rare neutral decays. Focus on these decay channels is motivated by the search for signatures beyond the Standard Model, probing portals that couple the SM sector to the dark...

44. $\eta$ Meson Photoproduction with the GlueX Experiment

Jonathan Zarling (University of Regina)

17/02/2022, 10:48

QCD and Hadrons

Studies of the exclusive production of the $\eta$ meson in photonuclear reactions offer a wide range of physics insight. These include constraining models of hadron photoproduction, insight into the spectrum of excited N* states, and may even provide a probe into the structure of the nucleon at wide-angles of production. GlueX, a high-intensity photoproduction experiment located at Hall D of...

15. Numerical Methods for Finite Temperature Effects in Quantum Field Theory

Ms Siyuan Li (University of Saskatchewan)

17/02/2022, 11:00

QCD and Hadrons

The basic structure of quantum field theory that is used to describe the Standard Model of fundamental interactions of nature is usually formulated for zero temperature. However, the effects of temperature are extremely important for understanding a number of physical processes such as the electroweak phase transition and quark-gluon plasma.
The extension of quantum field theory to non-zero...