1 / 1

EuroPol: Polarisation Observables in Hadron Physics

EuroPol: Polarisation Observables in Hadron Physics. Participants: Bonn, Germany Edinburgh, UK Frascati, Italy Giessen, Germany Glasgow, UK Lund Sweden Mainz, Germany Pavia, Italy Torino, Italy Dubna, Russia Jefferson Lab., USA Kharkov, Ukraine Yerevan, Armenia

thiery
Download Presentation

EuroPol: Polarisation Observables in Hadron Physics

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. EuroPol:Polarisation Observables in Hadron Physics Participants: Bonn, Germany Edinburgh, UK Frascati, Italy Giessen, Germany Glasgow, UK Lund Sweden Mainz, Germany Pavia, Italy Torino, Italy Dubna, Russia Jefferson Lab., USA Kharkov, Ukraine Yerevan, Armenia EM-probe studies of hadronic structure & physics beyond SM: pol. beams, targets,hadron polarimeters Objectives: Identify polarisation-observable combinations suited to particular hadronic-structure puzzles. Design & test experimental techniques Develop computational models Explore applications in dosimetry & industry Topics: Complete pseudo-scaler meson measurements Electron & photon beam polarimetry & detector development Nucleon polarimetry for nucleon time-like form factors Recoil-nucleon polarimeters for photoproduction experiments Double polarisation measurements of nucleon space-like form factors Polarised 3He neutron targets Deuteron polarimetry to access electric dipole moment components A coherent framework for modelling hadronic interactions in matter Applications of hadronic-interaction models Facilities: DAFNE, LNF Frascati ELSA, Bonn MAMI-C, Mainz MAX-lab, Lund TJNAF, Newport News Spokesperson & Contact J.R.M. Annand (Glasgow) email: j.annand@physics.gla.ac.uk The MAX accelerator: Injector and 3 Acceleration & Storage Rings. MAX-II and MAX-III deliver UV-X synchrotron light for a broad range of studies in physics, chemistry and biology. MAX-I stretches a 250 MeV pulsed electron beam to deliver around 70% duty cyle for the tagged-photon spectrometers. The new tagged-photon facility will be completed and commissioned by the end of 2004. The MAX accelerator: Injector and 3 Acceleration & Storage Rings. MAX-II and MAX-III deliver UV-X synchrotron light for a broad range of studies in physics, chemistry and biology. MAX-I stretches a 250 MeV pulsed electron beam to deliver around 70% duty cyle for the tagged-photon spectrometers. The new tagged-photon facility will be completed and commissioned by the end of 2004.

More Related