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Exploratory lattice design studies for Diamond-II

DOI: 10.18429/JACoW-IPAC2019-TUPGW079 DOI Help

Authors: B. Singh (Diamond Light Source) , R. Bartolini (Diamond Light Source) , J. Bengtsson (Diamond Light Source) , H. Ghasem (Diamond Light Source) , I. P. S. Martin (Diamond Light Source)
Co-authored by industrial partner: No

Type: Conference Paper
Conference: IPAC2019
Peer Reviewed: No

State: Published (Approved)
Published: June 2019

Open Access Open Access

Abstract: We pursue Robust Design of a Ring-Based Synchrotron Light Source as a System. In particular, the Design Philosophy is based on: ’ To Control the Nonlinear Dynamics: Control the Linear Optics. In particular, by: ’ Optimal Control of Natural Chromaticity. ’ ’-I Transformer’ between Chromatic Sextupoles for Unit Cell. ’ Higher-Order-Achromat for Super Period. In addition, by pushing the Requirements for Robust & Efficient Injection ’Upstream’, i.e., by considering On-Axis Injection, and by utilizing Reverse Bends (to trans-cend the reductionist Theoretical Minimum Emittance Cell), either: ’ the Natural Emittance can be reduced further, ’ or the Touschek Lifetime can be improved. Bottom line, a Design Choice.

Subject Areas: Technique Development


Technical Areas: Optics

Documents:
tupgw079.pdf