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elegant
"elegant" is an acronym for “ELEctron Generation ANd Tracking” and the elegant code is a 6D accelerator program that generates and tracks particle distributions. It's written in the programming language C and utilizes the MAD input format to describe accelerators (transport lines, circular machines, or combinations of both). elegant supports simulation of collective effects, such as short- and long-range wakefields, resonator impedances, intra-beam scattering, coherent synchrotron radiation, and the longitudinal space charge impedance. elegant is supported by Argonne National Laboratory, primarily by Michael Borland and colleagues. This information and more can be found in the user's manual and the user forum.
Sirepo/elegant Examples (must be registered user to access examples)
- Backtracking
- bunchComp--fourDipoleCSR
- bunchCompLSC--lattice
- CompactStorageRing
- Los Alamos Proton Storage Ring
elegant Further References
- M. Borland, “elegant: A Flexible SDDS-Compliant Code for Accelerator Simulation,” Advanced Photon Source LS-287 (2000).
- Y. Wang and M. Borland, “Pelegant: A Parallel Accelerator Simulation Code for Electron Generation and Tracking,” AIP Conf. Proc. 877, 241 (2006).
- Sirepo development has been supported by the U.S. Department of Energy Office of Science under multiple awards: By the office of High Energy Physics under Award Nos. DE-SC0011340, DE-SC0015897, and DE-SC0018719. By the office of Basic Energy Sciences under Award Nos. DE-SC0011237, DE-SC0015209, DE-SC0018556, and DE-SC0018571. By the office of Nuclear Physics under Award Nos. DE-SC0015212 and DE-SC0017181. By the office of Advanced Scientific Computing Research under Award Nos. DE-SC0017162 and DE-SC0017057. Sirepo has also been funded in part with Federal funds from the National Cancer Institute, National Institutes of Health, Department of Health and Human Services, under Contract No. 75N91019C00053 and with partial support from RadiaSoft LLC and from Sirepo customers.
License: http://www.apache.org/licenses/LICENSE-2.0.html
Copyright ©️ 2015–2020 RadiaSoft LLC. All Rights Reserved.
- Activait
- Controls
- elegant
- FLASH
- Genesis
- JSPEC
- JupyterHub
- MAD-X
- OPAL
- Radia
- Shadow
- Synchrotron Radiation Workshop (SRW)
- Warp PBA
- Warp VND
- Zgoubi
- Authentication and Account Creation
- How Your Sirepo Workspace Works
- Navigating the Sirepo Simulations Interface
- How to upload a lattice file
- How to share a Sirepo simulation via URL
- How Example simulations work
- How to report a bug in Sirepo
- Using lattice files in Sirepo
- Resetting an Example Simulation to default
- Backup SRW Sirepo simulations
- SRW Aperture
- SRW Brilliance Report
- SRW Circular Cylinder Mirror
- SRW CRL
- SRW Crystal
- SRW Electron Beam
- SRW Elliptical Cylinder Mirror
- SRW Fiber
- SRW Flux
- SRW Fully Coherent Gaussian Beam
- SRW Import Python or JSON Simulation File
- SRW Initial Wavefront Simulation Grid
- SRW Intensity Report
- SRW Planar Mirror
- SRW Power Density Report
- SRW Propagation Parameters
- SRW Single Electron Spectrum Report
- SRW Spherical Mirror
- SRW Toroid Mirror
- SRW Watchpoint
- SRW Additional Documentation