February 2010 ALBA Synchrotron Light Source Francis Perez
February 2010 ALBA Synchrotron Light Source Francis Perez ALBA Synchrotron Light Source
February 2010 Introduction to ALBA Accelerators Developments Accelerators Commissioning ALBA Synchrotron Light Source
February 2010 The ALBA Team We are today ~150 ALBA Synchrotron Light Source
February 2010 ALBA Synchrotron Light Source ü 3 Ge. V electron accelerator ü 30 beamlines (7 on day one) ü Funding is 50% Spanish – 50% Catalan Governments ü First beam for users 2011 ALBA Synchrotron Light Source
February 2010 ON? ALBA Synchrotron Light Source
February 2010 Back to 2006 July 27 th, 2006: Oficial start of the building work ALBA Synchrotron Light Source
February 2010 ALBA Schedule ALBA founded ALBA 1 st worker April 03 Dec 03 … Start main building works Start Linac installation Linac commissioning Booster and SR installation Booster commissioning SR Installation Storage Ring commissioning Beamlines commissioning July 06 Feb 08 Sept - Oct 08 Feb 09 – Dec 09 Jan 10 Feb – June 10 Sept – Nov 10 – Feb 11 Start of Users Operation ~ May 2011 ALBA Synchrotron Light Source
February 2010 Synchrotron Light Source in Cerdanyola (Barcelona, Spain) December 2009 ALBA Synchrotron Light Source
February 2010 Warehouse Workshop Offices Parking Electricity Main Building Cooling - HVAC ALBA Synchrotron Light Source
February 2010 ALBA Accelerators LINAC 100 Mev BOOSTER 100 Me. V – 3 Ge. V STORAGE RING 3 Ge. V ALBA Synchrotron Light Source
February 2010 Booster and Storage Ring sharing the same tunnel BOOSTER May 2009 STORAGE RING ALBA Synchrotron Light Source
February 2010 Storage Ring: Main Parameters Electron beam energy Storage Ring Circumference Number of cells Symmetry Straight section lengths 3. 0 Ge. V 268. 8 m 16 4 4 x 8. 0 m 12 x 4. 4 m 8 x 2. 6 m Beam current Emittance Lifetime (3 ID’s+Inj) (12 ID’s) (2 ID’s+RF+Diagn) 400 m. A < 4 nm. rad > 10 h ALBA Synchrotron Light Source
February 2010 ALBA BEAMLINES Phase 1: 7 Beamlines under construction, open to users on day 1 6 ID’s and 1 bending magnet port In addition, 2 bending magnet ports for Electron Beam Diagnostic Phase 2: 8 proposal have been evaluated Funding for 2 is being looking for In total: Capability for 17 ID beamlines And 14 bending magnet beamlines ALBA Synchrotron Light Source
February 2010 ALBA BEAMLINES Bending: e- Diagnostics EU 71 Polarization dependent spectroscopies Bending: e- Diagnostics EU 62 Photoemission spectroscopies SCW 30 EXAFS W 65 XAS Bending Microscopy IVU 21 Non Cristaline Diffraction ALBA Synchrotron Light Source IVU 21 Macromolecular Cristalography
February 2010 Brilliance of insertion devices of day 1 ALBA Synchrotron Light Source
February 2010 Accelerator Developments ALBA Synchrotron Light Source
February 2010 Magnets Diagnostics RF Cavities Control System Timing Digital Electronics Vacuum ALBA Synchrotron Light Source
February 2010 RF System by ALBA RF group ALBA Synchrotron Light Source
February 2010 RF Voltage 3600 k. V Digital LLRF TRANSMITTER Layout 6 cavities ALBA Synchrotron Light Source Tube type IOT Number 6 x 2 IOTs Power 2 x 80 k. W Combination Ca. Co
February 2010 RF cavity: DAMPY HOM damped RF cavity (in collaboration with Bessy) Wire on which beads are attached Bead motion bead Alignment Tension CAVITY DAMPY Type single-cell Number 6 Frequency 500 MHz Rsh 3. 3 Mohm ALBA Synchrotron Light Source
February 2010 RF Power Combiner: Ca. Co ALBA Synchrotron Light Source
February 2010 New IOT (in collaboration with Thales) Tested in factory at 80 k. W for more than 24 h Tested in factory for 1/2 h at 90 k. W Operational at RF lab since December 2007 Improvements 6. 8 MHz LS version TV version ALBA Synchrotron Light Source
February 2010 Tests at 75 k. W Digital Low Level RF Amplitude RMS Errors: 0. 11% @ 80 MHz 0. 03% @ 1 MHz Using a commercial board Phase RMS Errors: 0. 05º @ 80 MHz 0. 02º @ 1 MHz ALBA Synchrotron Light Source
February 2010 Timing and Machine Protection System by ALBA Electronics Group ALBA Synchrotron Light Source
February 2010 Input Timing System: Event Based Model RF input (499. 654 MHz) 50 Hz EVG Fan Out Timestamp EVR EVR Output Output ALBA Synchrotron Light Source EVR Output
Ti RF Plant (Stop RF Plant) 2 Pin Diode 1 Vacuum level detection 3 RF level detector 8 Arc detector RF Plant February 2010 Upgrade the timing system to add a second and faster redundancy to the standard Machine Protection System (PLC based) ALARM SOURCES Timing System ALARM OUTPUTS ALBA Synchrotron Light Source
February 2010 Input RF input (499. 654 MHz) 50 Hz EVG Fan Out EVR EVR Output Output ALBA Synchrotron Light Source EVR Output
February 2010 Timestamp EVR Fan Conc Fan Out Timestamp EVR EVR RF input (499. 654 MHz) 50 Hz EVG The EVR will filter which events reach the EVG to avoid any timing system distortion possibility. Fan Conc Timestamp EVR Output Input Output Input Fan Out Timestamp EVR Output Input 5 microseconds! ALBA Synchrotron Light Source EVR Timestamp EVR Output Input
February 2010 Accelerator Commissioning ALBA Synchrotron Light Source
February 2010 Linac Commissioning Li. Dia: Diagnostics Line LINAC ALBA Synchrotron Light Source
February 2010 Linac Commissioning (Oct 2008) AS 1 AS 2 FCT-Li. Dia F-Cup 4 n. C in 112 ns (56 pulses) Emittance ~30 p mm mrad ALBA Synchrotron Light Source
February 2010 Booster (Pre-) Commissioning 11 – 24 January 2010 ALBA Synchrotron Light Source
February 2010 18 microseconds, 22 turns 1 st turns ALBA Synchrotron Light Source
February 2010 Stored Beam: RF ON 5 seconds, 5 injections ALBA Synchrotron Light Source
February 2010 Bending, Quads and RF synchronized Energy Ramping ALBA Synchrotron Light Source
February 2010 1 st Synchrotron Light in Spain ALBA Synchrotron Light Source
February 2010 2. 7 Ge. V with 0. 7 m. A 90 % Energy and 70% current of nominal values ALBA Synchrotron Light Source
February 2010 Thank you ALBA Synchrotron Light Source
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