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LNS in numbers. INFN Laboratori Nazionali del Sud are located in the Catania University campus area. Total area: 35000 m 2 Total volume: 97000 m 3. Staff members: 110 Associated researchers: 121 Italian users: 367 Foreign users: 193 Annual scientific production:
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LNS in numbers INFN Laboratori Nazionali del Sud are located in the Catania University campus area • Total area: 35000 m2 • Total volume: 97000 m3 • Staff members: 110 • Associated researchers: 121 • Italian users: 367 • Foreign users: 193 • Annual scientific production: • about 224 (papers and proceedings) • Budget: about 11 MEuro/year
CATANA Therapy room Center for Hadron-Therapy and Advanced Nuclear Applications + EXCYT Facility 8Li Ions beam from Proton to U Emax of delivered beam 82 AMeV for light ions 24 AMeV Gold Tandem 15 MV Superconducting Cyclotron Kb=800, Kfoc=200 Diameter 3.9 m, Bmax=4.8 T
The Tandem accelerator Stripper 0 MV 0 MV +15 MV
The Superconducting Cyclotron (T/A)max = Kbending (Q/A)2 ~ 25 AMeV 197Au (T/A)max = Kfocusing (Q/A) = 100 AMeV light ions Bending limit K=800 Focusing limit Kfoc=200 Pole radius 90 cm Yoke outer radius 190.3 cm Yoke full height 286 cm Min-Max field 2.2-4.8 Tesla Sectors 3 RF range 15-48 MHz
MEDEA (Multi Element DEtector Array) • 180 BaF2 scintillators around the target • 22 cm inner radius • Single element thickness 20 cm • Detection and identification of gamma rays and light particle • Suitable for gamma rays up to 300meV • Ti,img resolution <1ns
MAGNEX - a large acceptance MAGNetic spectrometer for EXcyt beams • Main elements: • position sensitive MCP start detector; • vertically focusing quadrupole; • bending magnet; • focal plane detector measuring ion direction, energy, charge and mass.
MACISTE 24 detectors θ≤ 60 SOLE Superconducting Solenoid 00 ≤θ≤ 60 MULTICS 162 detectors 30 ≤θ≤ 280 MEDEA 180 detectors 300 ≤θ≤ 1800 MEDEA - MULTICS - SOLE - MACISTE
CATANA : a facility for proton therapy treatment of the eye tumours Total patients treated from 2002: 280patients
The source was realised by electro-deposition of 210Po on a thin silver film. The source was sealed and was certified as non contaminant. The energy of the outcoming α particles is about 4.5 MeV. LANDIS The laboratory of non destructive analysis of the LNS/INFN THE FIRST PORTABLE PIXE-α SYSTEM LICENCE CEA/INFN N° 9807435 The in-situ analysis of samples in the cultural heritage field has been up to now very successful and will continue in the future. Present important goal: The Archaeological Museum of Misurata (Libia) for the characterization of the “Misurata treasure” (110000 Roman Age silver-plated coins)
LNS and the deep sea activities • LNS has been involved in deep-sea activities with the NEMO project since 1999 • Coordinator of the KM3NeT Preparatory Phase (E. Migneco) • Large group of scientists, engineers and technicians involved in the activities • Significant investments in new infrastructures with the contribution of INFN, the Italian Ministry of Research and the Sicilian Regional Government
The Catania Test Site Shore station located inside the Catania harbour area. 3 M€ investment (shore station, electro-optical cable) completed in 2006. NEMO Phase-1 installed in 2006. Facility open to multidisciplinary activities (Onde, SN-1, LIDO, SMO) in cooperation with other institutes (INGV, Esonet)
The Catania Test Site infrastructure LNS-INFN Catania FC SAN :Main data storage Data analysis Conencted to GARR-X • LIDO demo mission of ESONET: • two observatories with sensors for bioacoustics, ocean monitoring, geohazards. Ready for deployment • ESONET Test sites activity: Sea operations, ROV tests • SMO: Common acoustic data-base Catania & Capo Passero North: 4 LBW hydrophones 2 LF hydrophones CTD, ADCP, Seismometers magnetometers pressure gauges GPS time stamping Upgraded Internet Radio Link: 100 Mbps 5 km 20 km South: 4 LBW hydrophones Underwater GPS time stamping 5 km NEMO JB LNS Test Site Laboratory refurbished during 2010-2011: GPS and o.f. distribution in test labs and construction hall
The Capo Passero infrastructure • Shore and deep-sea infrastructure built by LNS with INFN funds (7 M€) • Shore and deep sea infrastructures at Capo Passero • Shore station • 100 km electro-optical cable • Power feeding system (50 kW) • 10 kW deep-sea DC/DC converter
Optical fibre link Capo Passero - LNS Upgrade of the connection between the Capo Passero shore station and the LNS in Catania with a high-speed direct optical fibre link LNS to Internet Through GARR (Italian Network Authority) 2011 – 1 Gbps 2012 – 2.5 Gbps (GARR-X) Catania Shore Lab 10 Gbit link GARR-X Catania ShoreLab - LNS: Radio link 200 Mbps Tobeimproved1Gbps 1 Gbit link INFN LNS: Main Data Repository Catania GRID node Capo Passero Shore Lab - LNS Dedicated optical fiber 2011 – 1 Gbps 2012 – 10 Gbps Capo Passero Shore Lab
The Cougar ROV Cougar Seaeye ROV upgraded to 4000 m operative water depth Acquired by INFN and INGV within the PEGASO project co-funded by the Sicilian Regional government