Evaluating the impact of Diamond-II possible lattices on beamlines

Authors: M. Apollonio (Diamond Light Source) , L. Alianelli (Diamond Light Source) , F. Bakkali Taheri (Diamond Light Source) , R. Bartolini (Diamond Light Source; John Adams Institute, University of Oxford) , A. Dent (Diamond Light Source Ltd) , J. Li (John Adams Institute, University of Oxford)
Co-authored by industrial partner: No

Type: Conference Paper
Conference: 9th International Particle Accelerator Conference IPAC2018
Peer Reviewed: No

State: Published (Approved)
Published: June 2018

Open Access Open Access

Abstract: At Diamond Light Source we are considering an upgrade of the machine aimed at significantly reduced emittance (la factor 20), that follows a worldwide trend in similar synchrotron radiation sources. An important aspect in the design of the upgrade is the optimization of the photon beam properties, such as flux, brilliance, spot size, divergence or coherence of the new sources and how these are translated into requirements on the electron beam and on the machine design. We present a study based on a combination of accelerator physics tracking codes (AT, elegant) and of radiation codes (SPECTRA, SRW, SHADOW), with the aim at bridging the gap between machine and beamlines.

Subject Areas: Technique Development

Technical Areas: Accelerator Physics , Insertion Devices , Magnets