Solaris Storage Ring Lattice Optimization with Strong Insertion Devices
(2012) 3rd International Particle Accelerator Conference 2012, IPAC 2012 p.1218-1220- Abstract
- The Solaris synchrotron radiation facility under construction in Krakow will be a replica of the 1.5 GeV storage ring of MAX IV. This compact 3rd generation light source has been designed to have an emittance of 6 nm rad and operate with 500 mA stored current for VUV and and soft X-ray production.The lattice consists of 12 double- bend achromats (DBA) where each DBA cell is integrated into one solid iron block. Twelve 3.5 m long straight sections are available of which 10 will be equipped with various insertion devices. These devices will differ from those adopted by MAX IV. For X-ray production one or more superconducting wigglers will be used, while APPLE-II type undulators will be used for variable polarised light production. The linear... (More)
- The Solaris synchrotron radiation facility under construction in Krakow will be a replica of the 1.5 GeV storage ring of MAX IV. This compact 3rd generation light source has been designed to have an emittance of 6 nm rad and operate with 500 mA stored current for VUV and and soft X-ray production.The lattice consists of 12 double- bend achromats (DBA) where each DBA cell is integrated into one solid iron block. Twelve 3.5 m long straight sections are available of which 10 will be equipped with various insertion devices. These devices will differ from those adopted by MAX IV. For X-ray production one or more superconducting wigglers will be used, while APPLE-II type undulators will be used for variable polarised light production. The linear and nonlinear beam dynamics have been studied with these perturbing insertion devices included in the lattice and results are presented in this paper. (Less)
Please use this url to cite or link to this publication:
https://lup.lub.lu.se/record/2966339
- author
- Wawrzyniak, Adriana LU ; Bocchetta, Carlo ; Leemann, Simon LU and Eriksson, Mikael LU
- organization
- publishing date
- 2012
- type
- Chapter in Book/Report/Conference proceeding
- publication status
- published
- subject
- host publication
- Proceedings of IPAC’12
- pages
- 3 pages
- publisher
- IPAC 2012
- conference name
- 3rd International Particle Accelerator Conference 2012, IPAC 2012
- conference location
- New Orleans, LA, United States
- conference dates
- 2012-05-20 - 2012-05-25
- ISBN
- 978-3-95450-115-1
- language
- English
- LU publication?
- yes
- additional info
- Conference: http://www.ipac12.org Proceedings: http://accelconf.web.cern.ch/accelconf/IPAC2012/index.htm
- id
- 182be84a-7d4e-453f-9ab5-04edd7381250 (old id 2966339)
- alternative location
- http://accelconf.web.cern.ch/AccelConf/IPAC2012/papers/tuppc025.pdf
- date added to LUP
- 2016-04-04 10:34:35
- date last changed
- 2018-11-21 20:59:34
@inproceedings{182be84a-7d4e-453f-9ab5-04edd7381250, abstract = {{The Solaris synchrotron radiation facility under construction in Krakow will be a replica of the 1.5 GeV storage ring of MAX IV. This compact 3rd generation light source has been designed to have an emittance of 6 nm rad and operate with 500 mA stored current for VUV and and soft X-ray production.The lattice consists of 12 double- bend achromats (DBA) where each DBA cell is integrated into one solid iron block. Twelve 3.5 m long straight sections are available of which 10 will be equipped with various insertion devices. These devices will differ from those adopted by MAX IV. For X-ray production one or more superconducting wigglers will be used, while APPLE-II type undulators will be used for variable polarised light production. The linear and nonlinear beam dynamics have been studied with these perturbing insertion devices included in the lattice and results are presented in this paper.}}, author = {{Wawrzyniak, Adriana and Bocchetta, Carlo and Leemann, Simon and Eriksson, Mikael}}, booktitle = {{Proceedings of IPAC’12}}, isbn = {{978-3-95450-115-1}}, language = {{eng}}, pages = {{1218--1220}}, publisher = {{IPAC 2012}}, title = {{Solaris Storage Ring Lattice Optimization with Strong Insertion Devices}}, url = {{https://lup.lub.lu.se/search/files/5571383/2966340.pdf}}, year = {{2012}}, }