Imperial College 1 Plans and Costs Front End Test Stand Aim is to demonstrate a 60 mA, 2 ms, 50 pps chopped beam at 3 MeV RAL/ISIS (ION SOURCE, CHOPPER, RFQ beam dynamics, engineering) RAL/ASTeC (MEBT beam dynamics, RF cavities) Imperial College (LEBT & RFQ beam dynamics, DIAGNOSTICS, engineering) Warwick University (LEBT beam dynamics & solenoid field design) RFQ, 324 MHz, 3 MeV MEBT, chopper Ion source 70 mA, 2 ms, 10 % dc 3 Soleniod LEBT
Imperial College 2 Ion Source Purchase power supplies Prepare R8 Manufacture vacuum vessels Manufacture 4 additional top loading ion sources Design and build HV platform and cage Ancillary wiring Assemble ion source Commission ion source Characterise ion source
Imperial College 3 LEBT – Plans for the near Future Work already performed : Rough calculation of beam transport for different lens options based on available source emittances => 3 solenoid option choosen Detailed calculation of beam transport for 3 solenoid option based on available source emittances. => Results are quite sensitive to initial emittance and degree of SCC Detailed analysis of input emittance given by simulation of beam extraction and from emittance measurements (x,x’ and y,y’). => further information required – design & construction of a pepperpot emittance measurement device started. This year to do : Determination of source emittance using pepperpot method, transversal density distribution of the ions and the degree of space charge compensation Finalisation of particle dynamics calculation for the LEBT Final design of magnetic fields of the lenses Start of the mechanical Design of lenses and the LEBT
Imperial College 4 LEBT Determination of source emittance Particle dynamics Design of magnetic fields of the lenses Mechanical Design of lenses Mechanical Design of LEBT Determination of beam parameters at LEBT entrance Production of Lenses Assembly of LEBT Commisioning of LEBT Determination of beam parameters at RFQ entrance
Imperial College 5 Diagnostics - 1 What do we need to know ? Beam current - I(t) at the exit of : Ion source, LEBT, RFQ and Chopper (MEBT) => use of current transformers (conventional, non destructive) Degree of space charge compensation – k / uk at the exit of : Ion source, LEBT => use of residual gas ion spectroscopy (non destructive) => design of spectrometer started, grant application written Transversal beam density profile & Halo – (x,y,t) at the exit of : Ion source, LEBT, RFQ and Chopper (MEBT) => use of flying wires (conventional, destructive) => use of laser detachment – “Lasertomography” (non destructive, design phase started, grant application required)
Imperial College 6 Diagnostics - 2 What do we need to know ? Transversal beam emittance – (x,x’,y,y’,t) at the exit of : Ion source, LEBT, RFQ and Chopper (MEBT) => use of Allison scanner (destructive, available) => use of pepperpot (destructive, under construction) => use of laser detachment (non destructive, design phase) Longitudinal beam emittance – energy spread – (z,z’,t) at the exit of : RFQ and Chopper (MEBT) => use of magnetic spectrometer (destructive, “available”) => use of laser detachment TOF (non destructive, design phase) To intensify the work on the beam diagnostics in the near future, D. Lee (Ph. D student, Imperial) has joined the team and will work on Laser tomography and it is planned that C. Gabor (Ph.D on beam diagnostics using laser neutralisation at Frankfurt University) will join in spring and work mainly on the laser based emittance scanner.
Imperial College 7 Diagnostics Determination of source emittance - Pepperpot Mechanical design & assembly of RGIES Design of laser based profile measurement Mechanical design & assebmly of laser based profile measurement Commisioning of laser based profile measurement Design of laser based emittance measurement Mechanical design of laser based emittance measurement Assembly laser Commisioning of laser Design & assembly of conventional diagnostics
Imperial College 8 RFQ Decision of frequency = 324 MHz Particle dynamic design (field level, Kilpatrick) => Length of RFQ Electro dynamic design of resonator and Endplates => Choice of RFQ type Electro dynamic design of tuners, couplers Design of models, production and tests of models Mechanical design of RFQ, Endplates, Positioners Mechanical design of tuner, couplers, etc Production of RFQ Production of tuner, couplers, and support Assembly of RFQ, test and commissioning
Imperial College 9 Chopper & MEBT Representative prototype lumped line test Representative prototype meander line test Pre-production meander line test Pre-production lumped line test RF cavity and quadrupole design MEBT RF design Chopper manufacture MEBT design MEBT construction Assembly of MEBT & Chopper - Commissioning
Imperial College 10 FETS Ion source LEBT DIAGNOSTICS RFQ CHOPPER MEBT Construction & Commissioning Design
Imperial College 11 Cost estimate Ion Source (Sources: £ , HV : £ 6 000, Mag. : £ , Anc. £ ) £ LEBT (Lenses : £ , Mech : £ , Anc. : £ ) £ RFQ (Models: £ , RFQ : £ , Anc. (Tuners…) : £ )£ MEBT & CHOPPER (Models: £ , Chopper : £ , MEBT : £ ,……)£ DIAGNOSTICS (Laser: £ , : £ , :£ , Conv : £ )£ RF (Klystron: £ , MEBT : £ 50000, Distr & Contr. : £ )£ Total =========== £ Already app. £ has been spent on RF, vacuum components, power supplies etc. Funded by : HP-NIS & HIPPI (EU), ASTeC, CCLRC, PPARC To be able to fulfil the tough time schedule additional workforce is required : 1)Project management for R8 refurbishment (50%) 2)Electrical engineer for refurbishment of R8 (50 %) 3)Engineer for RF power (additionally to Aaron)