| 1. |
- Bocchetta, Carlo, et al.
(author)
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Project Status of the Polish Synchrotron Radiation Facility Solaris
- 2011
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In: Proceedings of IPAC2011. - 9789290833666 ; , s. 3014-3016
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Conference paper (other academic/artistic)abstract
- Abstract in Undetermined The Polish synchrotron radiation facility Solaris is being built at the Jagiellonian University in Krakow. The project is based on an identical copy of the 1.5 GeV storage ring being concurrently built for the MAX IV project in Lund, Sweden. A general description of the facility is given together with a status of activities. Unique features associated with Solaris are outlined, such as infrastructure, the injector and operational characteristics.
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| 2. |
- Wawrzyniak, Adriana, et al.
(author)
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Injector Layout and Beam Injection into Solaris
- 2011
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In: [Host publication title missing]. - 9789290833666 ; , s. 3173-3175
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Conference paper (peer-reviewed)abstract
- The Solaris synchrotron radiation storage ring to be built in Krakow, Poland is based on the MAX IV 1.5 GeV design. The injector will be a linear accelerator and its components identical to those for the MAX IV project, however, injection is not at full energy and the injector layout is different. The linac and transfer line layout, optics and injection scheme into the storage ring is presented and an analysis of accumulation before energy ramping is discussed.
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| 3. |
- Wawrzyniak, Adriana, et al.
(author)
-
Solaris Storage Ring Lattice Optimization with Strong Insertion Devices
- 2012
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In: Proceedings of IPAC’12. - 9783954501151 ; , s. 1218-1220
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Conference paper (peer-reviewed)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.
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