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FEBIAD ion source development efficiency improvement

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Presentation on theme: "FEBIAD ion source development efficiency improvement"— Presentation transcript:

1 FEBIAD ion source development efficiency improvement
at ISOLDE: efficiency improvement for all the elements L.Penescu, R.Catherall, J.Lettry, T.Stora CERN, AB-ATB-IF (ISOLDE) ISOLDE Workshop, November 2008

2 Ionization efficiency improvement at ISOLDE
FEBIAD Ion source Ionization Efficiency He Ne Ar Kr Xe Rn* Standard MK7 [1] 0.14 0.36 2.0 4.3 11 - 1st proto (#380) 0.37 7.8 19 2nd proto (#317, #385) 1.4 6.7 26 38 47 62 Multiplying factor 10 18.6 13 8.8 4.3 - Yields 72Kr 73Kr Measured (at/µC) 1.1e4 1.2e6 Database (at/µC) 2.0e3 7.4e4 #380 Nb (HRS) Record yields for Krypton: #385 UCx (HRS) Discovery of 229Rn. [1] U.C. Bergmann et al, NIM B204 (2003) 204 Liviu Penescu ISOLDE Workshop, November 2008

3 Efficiency of the ISOL process
Leaks Release loss Decay loss Condensation Neutrals Sidebands Multiply charged Transfer line Ion source Extraction Target oven Plasma Extracted ion beam ~nA for Surface ~A for FEBIAD ~mA for ECR  Nuclear reaction - cross section  Effusion  Ionization  Beam quality  Diffusion  Gas pumping Liviu Penescu ISOLDE Workshop, November 2008

4 Elements produced at ISOLDE
FEBIAD ion sources 1+ Ionization Efficiency Dependent on:  Mass  Ionization potential  Volatility  …  Ionization potential: ANY element  Volatility: elements with Ha < ~6eV Elements produced at ISOLDE Liviu Penescu ISOLDE Workshop, November 2008

5 The arc discharge plasma
Electron impact ionization Charge exchange Recombination Neutral effusion Thermionic emission Surface ionization Chemical reactions Transfer line 16mm Cathode Anode 22mm Liviu Penescu ISOLDE Workshop, November 2008

6 Theoretical models for FEBIAD ionization
 Best approximation: empirical equation [2] Model parameters (FEBIAD): kTe = eV; Ti = 2273 K; 4lD0/A0 = 5.39105 cm/s Implications… Fitted results: FEBIAD (Kirchner) and EBGP (Nitschke) sources Where: l = average path length for a particle in the plasma; D0 = constant (cm2/s); Sout = emission area of the source; Ti = ion temperature; Te = electron temperature; Ip = ionization potential; le = number of electrons in the valence shell of the atom with a given Ip; Mi = mass of the species. Not useful for: Deducing: response time; emittance; collective behavior (=>selectivity) Comprehension of IS internal parameters: [2] G.D.Alton, NIM A382 (1996) 207 Liviu Penescu ISOLDE Workshop, November 2008

7 FEBIAD – effect of operational parameters
Density Energy Confinement Extraction Temperature Magnetic field Anodes potentials Operating pressure ELECTRONS IONS Liviu Penescu ISOLDE Workshop, November 2008

8 FEBIAD - a parameter-oriented model
Inferred from experimental study; Introduced in [3]. Model frame Equivalent with: No plasma confinement; Mainly direct electron beam ionization; No ion heating. Buffer gas not required for ionization; Emittance defined mainly by the extraction geometry;  Fast ionization. T = cathode temperature = gas & ion temperature; A, W = cathode parameters (Richardson constant & work function); Eelec = ionizing electrons energy; Eioniz, le, Mi = element parameters (ionization energy; available electrons; mass) Vsource = source volume; Sout = emission area of the source. [3] L.Penescu et al, NIM B 266, 4415 (2008) Liviu Penescu ISOLDE Workshop, November 2008

9 FEBIAD prototypes Liviu Penescu ISOLDE Workshop, 17-19 November 2008
Improvement: Extraction factor, fextr + 2nd Prototype (#385 UCx): reduction of wall losses 1st Prototype (#380 Nb): optimization of extracting field MK7 and MK5 (“cold” and “hot” plasma) Only MK7 (“cold plasma”) => Only noble gases => ALL elements Liviu Penescu ISOLDE Workshop, November 2008

10 Expected element dependence
VOLATILE Valid for isotopes STABLE Ion source response time: ionization extraction pumping decay sticking Pumping effect textr Ar 1900C f=0.25 tioniz  Ion source response time improved  Ion source response time < target + transfer line resp. time  No isotope lifetime limitation from the ion source Liviu Penescu ISOLDE Workshop, November 2008

11 Applicability Improvement valid for:
ALL types of transfer line (hot, cooled, quartz); ALL target materials; Atomic ionization AND molecular sidebands. Effect on the MK7 efficiencies (and RIB yields): Element He Ne Ar Kr Xe Multiplying factor 10 18.6 13 8.8 4.3 Effect on the MK5 efficiencies (and RIB yields): Element He Ne Ar Kr Xe Multiplying factor 3.8 4.0 3.3 3.5 2.5 Expected to apply for ALL elements! Liviu Penescu ISOLDE Workshop, November 2008

12 Thank you for your attention!

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