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Sept.2001 Shanghai symposium D.T. Jiang Acknowledgements Deming Shu, APS Tom Rebedeue, SSRL.

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Presentation on theme: "Sept.2001 Shanghai symposium D.T. Jiang Acknowledgements Deming Shu, APS Tom Rebedeue, SSRL."— Presentation transcript:

1 Sept.2001 Shanghai symposium D.T. Jiang Acknowledgements Deming Shu, APS Tom Rebedeue, SSRL

2 Sept.2001 Shanghai symposium D.T. Jiang Canadian Light Source Front Ends D.T. Jiang and E. Hallin, CLS, Saskatoon, Canada Outline Generic Specs of CLS Front Ends Type of SR Sources SR Thermal Power Loads FE Layouts: Two-ID/Straight, One-ID/Straight, BM SR Ray Tracing Bremsstrahlung Ray Tracing Current Design Issues Summary

3 Sept.2001 Shanghai symposium D.T. Jiang CLS Top View

4 Sept.2001 Shanghai symposium D.T. Jiang BL Construction Status

5 Sept.2001 Shanghai symposium D.T. Jiang 1 st Phase of BL Development at CLS

6 Sept.2001 Shanghai symposium D.T. Jiang 45mm-U (SGM) 185mm-U (PGM) 75mm- EPU (SPM) 22mm- SGU (PX) WSup33 (Sup- conduct) Period length (cm)4.518.57.52.23.3 Device length (m)1.1891.7601.601.6101.221 Number of periods269217437 Max. magnetic field B 0 (T)0.8430.7510.7470.9121.917 Critical E c (keV)----10.727 Max. deflection parameter, K3.5413.05.231.875.91 K/  (  rad) (CLS 1/  = 176  rad) 62322919223301040 Total Power (kW)2.212.512.343.6011.95 Peak Power (kW/mrad 2 )8.42.66.025.327.2 ID-photon shutter distance (m)10.948.78510.008.21*10.00 Peak heat flux @ shutter (W/mm 2 )703460484272 Summary of Design Parameters for CLS Insertion Devices

7 Sept.2001 Shanghai symposium D.T. Jiang Superconducting Wiggler Brilliance Period = 33 mm, B = 1.9 T, K = 5.91, Length ~1.2 m

8 Sept.2001 Shanghai symposium D.T. Jiang Superconduction Wiggler Heat Flux at the 1 st FE Fixed Mask

9 Sept.2001 Shanghai symposium D.T. Jiang SGU Heat Flux Density Map @ FM-1 Max heat flux density 702 W/mm 2 This is calculated for a second CLS Small Gap Undulator at the down stream location in a chicaned Two-SGU/Straight.

10 Sept.2001 Shanghai symposium D.T. Jiang Thermal Power Loads CLS IDs P total (kW) W/mm 2 @FM1 W/mm 2 @FM2 W/mm 2 @PSH-1 W/mm 2 @FM3 W/mm 2 @PSH-2 W/mm 2 @FM4 33mm1.9T Wiggler (XAFS) 11.73536345--273162 22mm-SGU (PX) 3.60702593466350270176 45mm-U (SGM) & 185mm-U (PGM) 4.72213136--10864 75mm-EPU x 24.68258162--12774 BM1 0.070 /H- mrad 29141266-

11 Sept.2001 Shanghai symposium D.T. Jiang Reference APS FE Specifications 1)APS Undulator A @ 1st fixed mask P total = 6.0 kW, P density =559 W/mm 2. D. Shu et. al. Nucl. Instrum. & Methods, A 347, 584-590(1994) 2)APS FE V1.2 would accommodate the total power (>~6 kW) and power density load of 600 W/mm 2. D. Shu et. al. (preprint) 3)In APS FE V1.5, P total = 9 kW and P density =800 W/mm 2, a design targeting at thermal load capacity of 12 kW total power with 1.2 kW/mm 2 maximum power density (4.8-meter-long double undulator A with APS operating at 100 mA). D. Shu et. al. (unpublished)

12 Sept.2001 Shanghai symposium D.T. Jiang Schematic of CLS Two-ID/Straight FE

13 Sept.2001 Shanghai symposium D.T. Jiang Schematic of Single ID/Straight FE

14 Sept.2001 Shanghai symposium D.T. Jiang Schematic of Bending Magnet Line FE

15 Sept.2001 Shanghai symposium D.T. Jiang Layout of CLS Two-ID/Straight FE: plan view

16 Sept.2001 Shanghai symposium D.T. Jiang Layout of CLS Two-ID/Straight FE: side view

17 Sept.2001 Shanghai symposium D.T. Jiang FE Angular throughput required for phase I CLS beamlines FE IdentifierSource/BL Identifier Vertical (mrad) Horizontal (mrad) Duplex ID FE (11ID) 185mm-U (11ID.2, VLS PGM)0.7 45mm-U (11ID.1, SGM)0.1400.360 Duplex ID FE (10ID) 75mm-EPU (10ID.1 Spectromicroscopy) 0.20 75mm-EPU (10ID.2, NOT TO BE IMPLEMENTED INNITIALLY) Assumed same as above Single ID FE (08ID) 22mm-SGU (08ID.1, Protein crystallgraphy) 0.0600.120 Sing ID FE (07ID) 35mm-Wiggler (XAFS)0.241.60 BM FE (BM1)BM10.62.0

18 Sept.2001 Shanghai symposium D.T. Jiang Dipole Chamber Virtual Aperture for Miss-steered ID SR Rays This neck acts a virtual aperture that limits the allowed miss-steering size along the straight. 1156.4 mm to straight center chamber neck

19 Sept.2001 Shanghai symposium D.T. Jiang SR Ray Tracing of Two-ID/Straight FE: vertical

20 Sept.2001 Shanghai symposium D.T. Jiang

21 Sept.2001 Shanghai symposium D.T. Jiang SR Ray Tracing of Two-ID/Straight FE: horizontal Example: SGM/PGM Sector

22 Sept.2001 Shanghai symposium D.T. Jiang SR Horizontal trace detail

23 Sept.2001 Shanghai symposium D.T. Jiang Bremsstrahlung Ray Tracing for Two-ID/Straight FE: vertical 1 st Collimator thickness determined by EGS4 calculation.

24 Sept.2001 Shanghai symposium D.T. Jiang Bremsstrahlung Ray Tracing for Two-ID/Straight FE:horizontal

25 Sept.2001 Shanghai symposium D.T. Jiang Layout of Single ID/Straight FE: plan view

26 Sept.2001 Shanghai symposium D.T. Jiang Layout of Single ID/Straight FE: side view

27 Sept.2001 Shanghai symposium D.T. Jiang Shutter:moving box-type mask (D.Shu et al,APS)

28 Sept.2001 Shanghai symposium D.T. Jiang SR Ray Tracing: Single ID/Straight vertical

29 Sept.2001 Shanghai symposium D.T. Jiang SR Ray Tracing: Single ID/Straight horizontal

30 Sept.2001 Shanghai symposium D.T. Jiang Bremsstrahlung Ray Tracing: Single ID/Straight

31 Sept.2001 Shanghai symposium D.T. Jiang Bremsstrahlung Ray Tracing: Single ID/Straight horizontal

32 Sept.2001 Shanghai symposium D.T. Jiang Bending Magnet FE (BM1): plan view

33 Sept.2001 Shanghai symposium D.T. Jiang Bending Magnet FE (BM1): elevation view

34 Sept.2001 Shanghai symposium D.T. Jiang SR Ray Tracing: BM1 vertical

35 Sept.2001 Shanghai symposium D.T. Jiang SR Ray Tracing: BM1 horizontal

36 Sept.2001 Shanghai symposium D.T. Jiang Bremsstrahlung Ray Tracing: Single ID/Straight vertical

37 Sept.2001 Shanghai symposium D.T. Jiang Bremsstrahlung Ray Tracing: Single ID/Straight horizontal

38 Sept.2001 Shanghai symposium D.T. Jiang Status of CLS BL FE Construction Conceptual Designs are completed. The designs are compact, simpler and with the same thermal power load capacity compared to the template APS FE design. Detail engineering design is in progress (mainly FEA Analysis confirmation for the results Extrapolated from the parametric studies of the APS FE designs). Tendering process is scheduled to start by the end of 2001.

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