S UPER B SITE ISSUES S. Tomassini, INFN-LNF On behalf of SuperB Collaboration Mini MAC, Frascati, July 17 th
Outline The Torvergata Site Preliminary Geological Analysis SPARX project SuperB project SPARX-SuperB synergy Conclusions
The TORVERGATA Site Torvergata AREA for the SuperB and SPARX Projects
Roman Villa Sport City University Campus CNR SPARX & SuperB
SPARX 1 st stage SuperB LINAC SPARX future
S.1 S.2 S.3 S.4 S.5 Formed by the Colli Albani volcano more than years ago Very Stable volcanic rock Geological analysis Soil Sea Level Altitude (m) Brown Pyroclastic Rock Gray Pyroclastic Rock Preliminary
Seismic map ngv.it/documenti/mapp a_opcm3519.pdfhttp://zonesismiche.mi.i ngv.it/documenti/mapp a_opcm3519.pdf Maximum ground acceleration, with a 10% probability of exceeding it in 50 years.
SPARX-FEL SOURCE PULSED SELF AMPLIFIED RADIATION X Composed by: One LINAC at 1.2 GeV and 2.4 GeV Three Undulators Lines Six Experimental Lines
SPARX-FEL: mid energy LINAC Emergency Exit Electrical Substation Room for Cooling plant Room for Air conditioning
SPARX-FEL: undulator hall
SPARX-FEL: experimental hall
SPARX SuperB: LINAC Tunnel Ground Level Modulators & Klystrons Tunnel LINAC Tunnel 400 m 5 m 4 m 5 m 600 m 500 m
SuperB: Damping Ring Damping Ring 200 m 20 m 18 m
SuperB: Storage Rings Tunnel 600 m 500 m 5.8 m It will be tunneled by means of a tunneling machine, the same that is now tunneling the C-line subway in Rome
SuperB: Storage Rings Tunnel Occupancy 4.5 m 2 m 0.7 m0.4 m 0.7 m
SuperB: Electrical Substations 9 electrical substations for SuperB 2 electrical substations for SparX about 40 Mw total electrical power needed
SuperB: Experimental Hall & Transfer Line - +
SPARX future
Conclusions The feasibility study of the SuperB project on the Torvergata site has been done. A preliminary geological study of the area has given excellent results on the stability of the site. A strong synergy with the SPARX-FEL project exists, giving the possibility of using the SuperB LINAC as the injector of the fel.