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Simulating transition crossing in the PS with HeadTail

Simulating transition crossing in the PS with HeadTail. E. Métral, G. Rumolo, B. Salvant LIS meeting - April 7 th , 2008. Agenda. Context of transition crossing in the PS HeadTail Simulations at constant energies HeadTail Simulations with acceleration Longitudinal aspects

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Simulating transition crossing in the PS with HeadTail

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  1. Simulating transition crossing in the PS with HeadTail E. Métral, G. Rumolo, B. Salvant LIS meeting - April 7th, 2008

  2. Agenda • Context of transition crossing in the PS • HeadTail Simulations at constant energies • HeadTail Simulations with acceleration • Longitudinal aspects • Crossing transition with a broadband impedance • Perspectives

  3. Context of PS transition crossing Elias presentation in January : Instabilities appear at transition crossing in the PS

  4. Context of PS transition crossing Question from PS2 project:  how fast should we cross transition in PS2 to avoid instabilities ?  Analytical calculations made by Elias (see 29/01/08 LIS meeting presentation )  HeadTail was modified to enable acceleration during simulation

  5. Simulation parameters • No broadband impedance • No space charge impedance • nTOF PS parameters (E. Métral) • Transition Energy is constant (t ~ 6.08) • Higher orders of momentum compaction factor are not taken into account • Beam momentum is increased linearly with time: • Here

  6. Agenda • Context of transition crossing in the PS • HeadTail Simulations at constant energies • HeadTail Simulations with acceleration • Longitudinal aspects • Crossing transition with a broadband impedance • Perspectives

  7. BB – no SC – no acceleration – simulations at various energies • Bunch lengths and momentum spread were adjusted at each energy to get a linearly matched bunch in the PS bucket with a longitudinal emittance of 2 eVs. Bunch Length Emittance Getting closer to transition transition = 6.08 The bunch is longer far from transition  linear matching equations do not hold

  8. BB – no SC – no acceleration – simulations at various energies • Analytical calculations of the longitudinal motion of a particle at the edge of a bunch with 2 eVs longitudinal emittance in a static bucket. For comparison, the accelerating bucket is also shown Stationary bucket 2 eVs for a linear restoring force 2 eVs for non linear restoring force Accelerating bucket (the area of the (z,) ellipse is not constant, but these are not canonical variables)

  9. BB – no SC – no acceleration – simulations at various energies Instabilitity threshold is at  ~ 5.2

  10. With BB no acceleration -  = 5.2 -  = -0.010

  11. With BB no acceleration -  = 5.4 -  = -0.007

  12. With BB no acceleration -  = 5.6 -  = -0.005

  13. With BB no acceleration -  = 5.8 -  = -0.003

  14. With BB no acceleration -  = 6.0 -  = -0.0008

  15. Comparison with analytical estimates

  16. Agenda • Context of transition crossing in the PS • HeadTail Simulations at constant energies • HeadTail Simulations with acceleration • Longitudinal aspects • Crossing transition with a broadband impedance • Perspectives

  17. Longitudinal ellipse shape while crossing transition Elias’s plot of the tilt of the ellipse in the longitudinal phase space Case of the nTOF bunch in the PS WITHOUT space charge (2/2)

  18. Checking simulated longitudinal motion during transition crossing HeadTail simulation : observing 10% of the macroparticles in the longitudinal phase space What about the shape of the ellipse?  follow some particles over 10 turns…

  19. Initial distribution • Only the blue particles will be displayed to assess the tilt of the ellipse

  20. Tracking macroparticles with l ~ 2 eVs

  21. No BB – no SC – comparing HeadTail with analytical calculations from Elias Reasonable agreement

  22. Agenda • Context of transition crossing in the PS • HeadTail Simulations at constant energies • HeadTail Simulations with acceleration • Longitudinal aspects • Crossing transition with a broadband impedance • Perspectives

  23. BB impedance – no SC Unstable from t=0 Initial  = 5.65

  24. BB impedance – no SC Stable at t = 0 Initial  = 4.6 Unstable at  = 5.25  Relativistic gamma Linear scale <y> Vertical position of Centroid [m] Log scale <y> Vertical position of Centroid [m] Growth rate ~ 60 µs

  25. Agenda • Context of transition crossing in the PS • HeadTail Simulations at constant energies • HeadTail Simulations with acceleration • Longitudinal aspects • Crossing transition with a broadband impedance • Perspectives

  26. Perspectives • Good agreement between analytical calculations and HeadTail simulations • In HeadTail simulations • Include possibility of t jump • Include transverse space charge • Take into account the non linear momentum factor 1 • Include possibility of longitudinal space charge • Simulate PS2 parameters and assess the maximum time allowed for transition crossing

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