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Diagnostics of FRIBs beam transport line

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Presentation on theme: "Diagnostics of FRIBs beam transport line"— Presentation transcript:

1 Diagnostics of FRIBs beam transport line
2015 Catania December 2015 Diagnostics of FRIBs beam transport line L. Cosentino1 , E. V. Pagano1,2 , Alfio Pappalardo1 1INFN – Laboratori Nazionali del Sud 2Università di Catania

2 Univ. of Catania & LNS-INFN
Catania, Italy 15 December, 2015 E. V. Pagano Univ. of Catania & LNS-INFN 2015 Catania December 2015 One of the most important task for a beam facility is to maximize the efficiency of the beam transport from the accelerator to the experimental hall. Current Transverse profile of the beam An optimal beam tuning procedure requires that the position, the shape and the intensity of the beam are continuously under control along all the beam line. In general the observable are the current, the transverse profile of the beam and the emittance. With stable beam, where, the intensity of the beam is relatively high ( pps) is quite simple to measure such observable, i.e. to current measurement it is possible to use a common farady cup, more in genera, it is possible to measure such observable using commercial instruments. Easy task For stable ( pps) For Radioactive Ion Beams ( pps) the characterisation of the beam properties requires dedicated diagnostic devices.

3 Fragmentation beams at INFN-LNS - Catania
Catania, Italy 15 December, 2015 E. V. Pagano Univ. of Catania & LNS-INFN 2015 Catania December 2015 Reaction target and fragments detection Fragmentation beams at INFN-LNS - Catania Movable production Target water cooled Two 45° dipoles of the beam line allow for the fragments selection

4 Univ. of Catania & LNS-INFN
Catania, Italy 15 December, 2015 E. V. Pagano Univ. of Catania & LNS-INFN 2015 Catania December 2015 There are 13 diagnostic points where we can measure the variables to optimize the transport of the beam.

5 Univ. of Catania & LNS-INFN
Catania, Italy 15 December, 2015 E. V. Pagano Univ. of Catania & LNS-INFN 2015 Catania December 2015 Component along the beam line? Current measurement To measure the current of beams with low intensity (below 105 pps) we need to integrate in a proper time range the particles beam counting rate; and to do this, fast signals (15-20 ns) coming from plastic scintillators (NE111, NEXXX, BC404, BC408, Fibres, ecc) are needed. Plastic scintillator (BC408) optically coupled to a small PMT, working in pulse counting mode BEAM COUNTING

6 Univ. of Catania & LNS-INFN
Catania, Italy 15 December, 2015 E. V. Pagano Univ. of Catania & LNS-INFN 2015 Catania December 2015 cm Component along the beam line? Transverse profile measurement Real time beam imaging based on fast acquisition system Spatial resolution 1-2 mm cm cm

7 Univ. of Catania & LNS-INFN
Catania, Italy 15 December, 2015 E. V. Pagano Univ. of Catania & LNS-INFN 2015 Catania December 2015 What Next? Possible systems to improve the beam transport along with the line Goals: Non destructive real time (on-line) diagnostic systems Good compromise between radiation damage, cost and maintenance Relatively simple to use Possible solutions!

8 Microchannel Plate (MCP) for Beam Imaging and Ions tagging
Catania, Italy 15 December, 2015 E. V. Pagano Univ. of Catania & LNS-INFN 2015 Catania December 2015 Microchannel Plate (MCP) for Beam Imaging and Ions tagging proton beam 180 KeV Intensity < 0.1 pA

9 FIBBS (Fibre Based Beam Sensor)
Catania, Italy 15 December, 2015 E. V. Pagano Univ. of Catania & LNS-INFN 2015 Catania December 2015 FIBBS (Fibre Based Beam Sensor) Light collection efficiency at one end: ≈3.5% Plastic scintillator fibres scanning a beam with scintillating fibres, in order to produce the 1D intensity distribution beam profile (mm) x profile y profile 8Li E = 16 MeV Ibeam= 7 x 103 pps SiPM μ-sensor Plastic fibres and compact PMT for particle counting Fibres diameter: 300 ÷ 500 µm 9

10 Univ. of Catania & LNS-INFN
Catania, Italy 15 December, 2015 E. V. Pagano Univ. of Catania & LNS-INFN 2015 Catania December 2015 Conclusions and remarks A suitable diagnostics for In flight RIBs made by fast plastic scintillator and position sensitive silicon detectors is already available at LNS. However, It needs improvements in order to maximize the efficiency of the beam transport along with the line. There are different ideas under developing and others could be taken into account with respect to new technology Some experimental efforts are needed with some budget (consumable and man power) Thanks for the attention

11 Univ. of Catania & LNS-INFN
Catania, Italy 15 December, 2015 E. V. Pagano Univ. of Catania & LNS-INFN 2015 Catania December 2015 What Next? Possible systems to improve the beam transport along with the line Goals: Non destructive real time (on-line) diagnostic systems Good compromise between radiation damage, cost and maintenance Relatively simple to use Possible solutions! Ions tagging by TOF measurement beam Tstart TStop MCP TOF - 50 psec/channel 7Li tail 7Li channel 1926 8Li peak Channel 2567 Selected events On-line discrimination among ions having the same energy but different masses.

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