Magnets for low Emittance Rings: An Overview
- Citation Author(s):
-
Pierre Schnizer
(HZB)
Johan Bengtsson (HZB) - Submitted by:
- Pierre Schnizer
- Last updated:
- DOI:
- 10.21227/ydeb-dh47
- Data Format:
169 views
- Categories:
- Keywords:
Abstract
Low emittance rings: magnet comparison
For different light sources magnet data were gathered. The main field parameters and the multipoles were collected for the different magnets.
Instructions:
Main field and multipoles for the individual machines.
Typically read by pandas dataframes but similar software packages should be able to handle the data.
Main field gives main strength (dipole, gradient, ...), pole radius or pole gap and so on
Multipoles are listed for the different machines in separate files at the reference radius of the machine.
ESRF-EBS uses different reference radii internally (7 and 13 mm). Data were recalculated for a reference radius of 10 mm for this machine.
Dataset Files
- ALS-U: main field parameters (Size: 847 bytes)
- CLIC: main field parameters (Size: 782 bytes)
- Diamond: main field parameters (Size: 429 bytes)
- Elettra: main field parameters (Size: 407 bytes)
- ESRF-EBS: main field parameters (Size: 1.13 KB)
- LINAC4: main field parameters (Size: 286 bytes)
- MAX IV: main field parameters (Size: 598 bytes)
- SIRIUS: main field parameters (Size: 367 bytes)
- SLS2: main field parameters (Size: 384 bytes)
- SLS2: main field parameters longitudinal gradient bend (Size: 267 bytes)
- ALS-U: multipoles for rref 5 mm (Size: 3.47 KB)
- ESRF-EBS: multipoles for (Size: 994 bytes)
- MAX IV: multipoles for rref 10.7 mm (Size: 1.33 KB)
- SIRIUS: multipoles for rref 12 mm (Size: 1.27 KB)
- SLS2: multipoles (Size: 267 bytes)
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