GUINEA-PIG: Beam-beam interaction simulation status M. Alabau, P. Bambade, O. Dadoun, G. Le Meur, C. Rimbault, F. Touze LAL - Orsay D. Schulte CERN - Genève.

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Presentation transcript:

GUINEA-PIG: Beam-beam interaction simulation status M. Alabau, P. Bambade, O. Dadoun, G. Le Meur, C. Rimbault, F. Touze LAL - Orsay D. Schulte CERN - Genève Orsay, 2-4 May 2007 ILC Software and Tools Workshop

Beam-Beam effect overview: why a beam-beam simulation tool is needed GUINEA-PIG Simulation Principle GUINEA-PIG Improvement at LAL: GP++ GUINEA-PIG: Beam-beam interaction simulation status

3 Beam-Beam effects overview When beams collide: mixing of classical and quantum effects Bunches are deformed by electromagnetic attraction: Disruption + pinch effect  enhancement of luminosity High beam-beam field (kT for ILC)  Energy loss in the form of synchrotron radiation: beamstrahlung (~3%) Secondary backgrounds Electromagnetic : e + + e - →  → e + e -... Hadronic : e + + e - →  → hadrons Electromagnetic deflections Effect on backgrounds (pairs...) Effect on luminosity measurements (Bhabha scattering) e + e - spin depolarisation effects...  need beam-beam simulation tool: GUINEA-PIG* C code from D. Schulte * Generator of Unwanted Interactions for Numerical Experiment Analysis -- Program Interfaced to Geant

4 GUINEA-PIG simulation GP simulates the collision of two bunches (e - e + or e - e - ) for a given set of input parameters: bunches sizes, emittances, energy, charge, offset... or of two input files. + computation parameters + options (espread, eloss, BG...) in ascii input file acc.dat  luminosity, distributions of beam particles after collision... GP generates backgrounds (bstrahlung , e + e - pairs, comptons,hadrons...) ascii output files Collision of e - and e + bunches

5 GUINEA-PIG simulation GP simulates the collision of two bunches (e - e + or e - e - ) for a given set of input parameters: bunches sizes, emittances, energy, charge, offset... or of two input files. + computation parameters + options (espread, eloss, BG...) in ascii input file acc.dat  luminosity, distributions of beam particles after collision... GP generates backgrounds (photons, e + e - pairs, comptons, hadrons...) ascii output files Collision of e - and e + bunches Bstrahlung during collision of bunches

6 How does GUINEA-PIG work? Macro-particles replace particles (can be 10 5 Macro  part) Bunches cut into slices: a slice of one bunch interacts with a slice of the other bunch when they occupy the same transverse plan. Slices are moved longitudinally on a 3D grid For each slice-slice interaction: Mpart distributed on the grid Fields calculation Mpart moved according to fields + photons generated if photon asked: photons distributed and moved on the grid (if asked) pairs generated and moved. e - e + interaction: luminosity, bhabha......

7 GUINEA-PIG improvement: GP++ Open the Black Box... More safety and modularity To add new features: Bhabhas (done), depolarization, hadronic minijets (to be done)... To increase performance for high statistic simulation for ILC (GRID, parallelization?) GP++ can be run with a specified rndm seed: to perform independent runs on GRID Beam-beam effects on Bhabhas Work on an I/O interface which allows different formats Work on an automatic choice of the grid dimensions Work on feasibility of parallelization To do: Implementation of all C version options in progress Spin, hadronic minijets rethink acc.dat... See G. Le Meur presentation at ELC Workshop, 8-11 January 2007, Daresbury

8 Summary Interaction Point: most important part of the machine and detector ! GUINEA-PIG(++) is a nice tool to study backgrounds, beam-beam effects... Or can be used as a black box [e.g. PLACET-GP-BDSIM-MOKKA...] Recent progress on GP++ can be seen on: GP Manual (extended to GP++):