RADIATIVE RECOMBINATION OF BARE NUCLEI AND IONS IN ELECTRON COOLING SYSTEM A.V. Philippov, A.B. Kuznetsov, I.N. Meshkov Veksler and Baldin Laboratory of.

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RADIATIVE RECOMBINATION OF BARE NUCLEI AND IONS IN ELECTRON COOLING SYSTEM A.V. Philippov, A.B. Kuznetsov, I.N. Meshkov Veksler and Baldin Laboratory of High Energy Physics Joint Institute for Nuclear Research, Dubna, Russia Workshop on Beam Cooling and Related Topics (COOL11), September 12–16, 2011, Alushta, Ukraine

A.V. Philippov, Workshop on Beam Cooling and Related Topics (COOL11), September 12–16, 2011, Alushta, Ukraine 2/22 OUTLINE Introduction 1 Analysis of experimental data of radiative recombination (RR) rates for bare nuclei 2 Analysis of experimental data of RR rates for intermediate charge state of ions 3 RR beam lifetime and cooling time Conclusion

A.V. Philippov, Workshop on Beam Cooling and Related Topics (COOL11), September 12–16, 2011, Alushta, Ukraine INTRODUCTION Review of experimental results and their comparison with theoretical approaches is presented in this talk. We consider two essential cases for NICA: –Recombination of bare gold nuclei in the NICA cooling system, –Recombination of intermediate charge state of gold ions in the Booster cooling system. Based on these comparisons we evaluated the contribution of the RR losses of intermediate charge state of gold ions: Au 32+, Au 33+, Au 43+, Au 51+, Au 61+, Au 68+ and Au 69+ during their acceleration in the Booster and the beam lifetime of the gold bare nuclei Au 79+ in NICA.

A.V. Philippov, Workshop on Beam Cooling and Related Topics (COOL11), September 12–16, 2011, Alushta, Ukraine 4/22 1 ANALYSIS OF EXPERIMENTAL DATA OF RR RATES FOR BARE NUCLEI RR rates vs. the electron relative energy ΔE, experiments: TSR, CRYRING, ESR. Red solid line theoretical models of H.A. Kramers [Phil. Mag. V P. 836.], black solid line R. Schuch [Phys. Rev. А. V. 45. N P ]. Black dashed line is the fit of the formula above.

A.V. Philippov, Workshop on Beam Cooling and Related Topics (COOL11), September 12–16, 2011, Alushta, Ukraine 5/22 1 ANALYSIS OF EXPERIMENTAL DATA OF RR RATES FOR BARE NUCLEI (Contnd) RR rates vs. the electron relative energy ΔE, experiments: TSR, CRYRING, ESR. Red solid line theoretical models of H.A. Kramers [Phil. Mag. V P. 836.], black solid line R. Schuch [Phys. Rev. А. V. 45. N P ]. Black dashed line is the fit of the formula above.

A.V. Philippov, Workshop on Beam Cooling and Related Topics (COOL11), September 12–16, 2011, Alushta, Ukraine 6/22 1 ANALYSIS OF EXPERIMENTAL DATA OF RR RATES FOR BARE NUCLEI (Contnd) RR rates vs. magnetic field strength B, experiment: ESR. [M. Steck, et al. EPJ D P ] RR spectra of U 92+ measured at 4 different magnetic guiding field strengths.

A.V. Philippov, Workshop on Beam Cooling and Related Topics (COOL11), September 12–16, 2011, Alushta, Ukraine 1 ANALYSIS OF EXPERIMENTAL DATA OF RR RATES FOR BARE NUCLEI (Contnd) RR rates vs. transverse electron temperature T experiment: ESR. [M. Steck. NIM A V P ]

A.V. Philippov, Workshop on Beam Cooling and Related Topics (COOL11), September 12–16, 2011, Alushta, Ukraine 1 ANALYSIS OF EXPERIMENTAL DATA OF RR RATES FOR BARE NUCLEI [M. Bell and J.S. Bell. Particle Accelerators V. 12. P ] [M. Steck. NIM A V P ] (Contnd) RR rates vs. transverse electron temperature T experiment: ESR (Bell & Bell comparison). RR spectra of U 92+ measured for a different drift temperature T d, e m Red dashed line Maxwell, blue dashed line flattened.

A.V. Philippov, Workshop on Beam Cooling and Related Topics (COOL11), September 12–16, 2011, Alushta, Ukraine 1 ANALYSIS OF EXPERIMENTAL DATA OF RR RATES FOR BARE NUCLEI [M. Bell and J.S. Bell. Particle Accelerators V. 12. P ] [M. Steck. NIM A V P ] (Contnd) RR rates vs. transverse electron temperature T experiment: ESR (Bell & Bell comparison). RR spectra of U 92+ measured for a different drift temperature T d, e m Red dashed line Maxwell, blue dashed line flattened.

A.V. Philippov, Workshop on Beam Cooling and Related Topics (COOL11), September 12–16, 2011, Alushta, Ukraine 1 ANALYSIS OF EXPERIMENTAL DATA OF RR RATES FOR BARE NUCLEI [M. Bell and J.S. Bell. Particle Accelerators V. 12. P ] [M. Steck. NIM A V P ] (Contnd) RR rates vs. transverse electron temperature T experiment: ESR (Bell & Bell comparison). RR spectra of U 92+ measured for a different drift temperature T d, e m Red dashed line Maxwell, blue dashed line flattened.

A.V. Philippov, Workshop on Beam Cooling and Related Topics (COOL11), September 12–16, 2011, Alushta, Ukraine 11/22 2 ANALYSIS OF EXPERIMENTAL DATA OF RR RATES FOR INTERMEDIATE CHARGE STATE OF IONS RR spectra of U 28+ measured at ESR. [A. Müller et al. Phys. Scr V. T37. P ] Black line is the fit of the formula above.

A.V. Philippov, Workshop on Beam Cooling and Related Topics (COOL11), September 12–16, 2011, Alushta, Ukraine 12/22 2 ANALYSIS OF EXPERIMENTAL DATA OF RR RATES FOR INTERMEDIATE CHARGE STATE OF IONS (Contnd) RR rates vs. electron shell structure, experiments: ESR, LEAR, SIS18 Complete shell Pb 54+ [Ar]4s 2 3d 8 One electron missing Pb 53+ [Ar]4s 1 3d 10 Complete shell Pb 52+ [Ar]4s 2 3d 10 Complete shell Au 63+ [Ne]3s 2 3p 4 U 76+ [Ne]3s 2 3p 4 Bi 67+ [Ne]3s 2 3p 4 Pb 66+ [Ne]3s 2 3p 4 One electron missing Pb 65+ [Ne]3s 2 3p 5 Bi 66+ [Ne]3s 2 3p 5 Au 62+ [Ne]3s 2 3p 5 U 75+ [Ne]3s 2 3p 5 One electron missing Bi 64+ [Ar]4s 1 Au 60+ [Ar]4s 1 Pb 63+ [Ar]4s 1

A.V. Philippov, Workshop on Beam Cooling and Related Topics (COOL11), September 12–16, 2011, Alushta, Ukraine 13/22 2 ANALYSIS OF EXPERIMENTAL DATA OF RR RATES FOR INTERMEDIATE CHARGE STATE OF IONS (Contnd) RR rates vs. electron shell structure, experiments: LEAR (Pb 52+, 53+, 54+ ), ESR (Au 25+ ), TSR (Au 49+, 50+, 51+ ). Au 49+ and Pb 52+ [Ar]4s 2 3d 10, Au 50+ and Pb 53+ [Ar]4s 1 3d 10, Au 51+ and Pb 54+ [Ar]4s 2 3d 8. Black solid and dashed lines are the fit of the formula above.

A.V. Philippov, Workshop on Beam Cooling and Related Topics (COOL11), September 12–16, 2011, Alushta, Ukraine 3 RR BEAM LIFETIME AND COOLING TIME RR beam lifetime in lab frame: We use well known Parkhomchuk formula for cooling time in lab frame: All the units in CGS; q, Z ion charge and nuclear number; m u, m e unit of mass, electron mass; γ, β Lorenz factor, beta; max, min impact parameter; L electron Larmor radius; V, V ||, || ion velocity; V eff electron effective velocity; B magnetic field angular spread; B magnetic field in Gs ; ΔE electron energy shift in eV ;, beta-function, emittance; l cool, cool length, relative length of cooling section; k B =1.6·10 12 Erg/eV Boltzmann constant; e electron charge; c speed of light.

A.V. Philippov, Workshop on Beam Cooling and Related Topics (COOL11), September 12–16, 2011, Alushta, Ukraine 15/22 3 RR BEAM LIFETIME AND COOLING TIME (Contnd) Estimation of gold ions beam losses in Booster. Black solid and dashed lines are the fit of the formula above.

A.V. Philippov, Workshop on Beam Cooling and Related Topics (COOL11), September 12–16, 2011, Alushta, Ukraine 16/22 3 RR BEAM LIFETIME AND COOLING TIME (Contnd) Estimation of bare gold nucleus beam lifetime at NICA: I e =1 A, r e =1 cm, T /T || =0.2/5·10 3 eV, B=0.1 T. Intrabeam scattering (IBS) time ( τ IBS ) black dashed line. The optimal electron energy shift in between of two black dashed lines ( 0.05 and 2 eV ). τ IBS (1 GeV/u)=1300 s

A.V. Philippov, Workshop on Beam Cooling and Related Topics (COOL11), September 12–16, 2011, Alushta, Ukraine 17/22 3 RR BEAM LIFETIME AND COOLING TIME (Contnd) Estimation of bare gold nucleus beam lifetime at NICA vs. transverse temperature: I e =1 A, r e =1 cm, B=0.1 T. Based on ESR experiment noted above.

A.V. Philippov, Workshop on Beam Cooling and Related Topics (COOL11), September 12–16, 2011, Alushta, Ukraine CONCLUSION The RR process of gold bare nuclei in NICA cooling system can be suppressed by two methods: –by choosing of optimal relative electron energy shift ΔE between ions and electrons beam, –and by an artificial increase the transverse temperature T of the electron beam. In order to suppress the RR process of intermediate gold ions charge state in the Booster cooling system during ions accumulation is required to avoided when using the ions with electron shell configuration which have one electron missing.

A.V. Philippov, Workshop on Beam Cooling and Related Topics (COOL11), September 12–16, 2011, Alushta, Ukraine 19/22 REFERENCES [1]Concept of NICA Collider. JINR [2]H.A. Kramers. Phil. Mag. V P [3]М. Pajek and R. Schuch. Phys. Rev. А. V. 45. N P [4]M. Bell and J.S. Bell. Particle Accelerators V. 12. P (and references therein for table). [5]W. Shi et al. Euro. Phys. J. D P [6]A. Hoffknecht et al. Phys. Rev. А V [7]O. Uwira et al. Hyperfine Interaction V P [8]A. Hoffknecht et al. Phys. Scr V. T92. P [9]W. Spies et al. Hyperne Interactions V P [10]R. Schuch et al. Acta Physica Polonica B V. 27. N P [11]L. Andersen et al. Phys. Rev. Lett V. 64. P [12]G.I. Budker et al. Proceedings of the V All-Union Meeting on Accelerators of Charged Particles 6. P [13]A. Müller et al. Phys. Scr V. T37. P [14]A. Wolf et al. NIMA V P / A. Hoffknecht et al. HYINT V P [15]S. Baird et al. Phys. Lett. B. V Iss P

A.V. Philippov, Workshop on Beam Cooling and Related Topics (COOL11), September 12–16, 2011, Alushta, Ukraine 20/19 Thank you for your attention!