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P. Schoofs, F. Cerutti, A. Ferrari, G. Smirnov Sep 20, 2013P. Schoofs, Update on the modelling of CC for FLUKA, CollUSM#28 1 Ref. :

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Presentation on theme: "P. Schoofs, F. Cerutti, A. Ferrari, G. Smirnov Sep 20, 2013P. Schoofs, Update on the modelling of CC for FLUKA, CollUSM#28 1 Ref. :"— Presentation transcript:

1 P. Schoofs, F. Cerutti, A. Ferrari, G. Smirnov Sep 20, 2013P. Schoofs, Update on the modelling of CC for FLUKA, CollUSM#28 1 Ref. :

2  Introduction  Description of the model  Frame of reference  Continuous potential  Interactions in Channeling  Volume effects  Exit kick  Results  2D distributions – Case study  Benchmarking against UA9-H8 data  Conclusions Sep 20, 2013P. Schoofs, Update on the modelling of CC for FLUKA, CollUSM#28 2

3  Why an implementation of channeling inside FLUKA ?  Crystals are investigated as new possible solution for collimation @ CERN  Energy deposition and tracking of secondaries need to be evaluated  FLUKA is the Monte Carlo currently used to assess these values in the collimation system  How does it work ?  Microscopic description avoiding the use of empirical parameters  Crystals defined as a region of the FLUKA geometry layout in which Particles can be channeled if their transverse energy is small enough - Follow channel curvature - Undergo reduced amount of interactions Interactions are carried on using FLUKA models Quasi-channeled particles can be reflected or captured Presently, a standalone event generator has been developed and benchmarked. Integration into FLUKA not yet completed. Sep 20, 2013P. Schoofs, Update on the modelling of CC for FLUKA, CollUSM#28 3

4  Crystal defined in FLUKA combinatorial geometry  Object situated in the laboratory  Region flagged as crystal  trigger channeling-related effects  Crystal planes defined inside crystal by 2 vectors  A : along the channel direction  B : perpendicular to A, giving the crystal planes orientation  Vectors are independent from the region Natural reproduction of miscut  Torsion  Change in the channel orientation along B  Change the radius of curvature proportional to excursion along B Sep 20, 2013P. Schoofs, Update on the modelling of CC for FLUKA, CollUSM#28 4

5 Outer sideInner side dpdp Sep 20, 2013P. Schoofs, Update on the modelling of CC for FLUKA, CollUSM#28 5

6 Sep 20, 2013P. Schoofs, Update on the modelling of CC for FLUKA, CollUSM#28 6

7 Sep 20, 2013P. Schoofs, Update on the modelling of CC for FLUKA, CollUSM#28 7

8 Sep 20, 2013P. Schoofs, Update on the modelling of CC for FLUKA, CollUSM#28 8

9 [M. Bondarenco, arXiv:0911.0107v3, 2010] tangency region Sep 20, 2013P. Schoofs, Update on the modelling of CC for FLUKA, CollUSM#28 9 (Thanks to Daniele for pointing this out ! )

10 Sep 20, 2013P. Schoofs, Update on the modelling of CC for FLUKA, CollUSM#28 10

11  Qualitative comparison of angular scan with H8-RD22  Distribution of particles against crystal orientation and hor. outgoing angle wrt crystal orientation (out-cr)  Strip crystal in 400 GeV proton-beam – divergence σ x’ =8 urad  Using the hor. Kick (out-in) we have [Scandale, PRL 98, 2007] VR or. CH or. Sep 20, 2013P. Schoofs, Update on the modelling of CC for FLUKA, CollUSM#28 11

12  Other examples:  X divergence = 0  With strong torsion (10urad/m), no hor. Divergence, σ y =1 mm σ y’ =10 urad Sep 20, 2013P. Schoofs, Update on the modelling of CC for FLUKA, CollUSM#28 12

13  UA9-H8:  Single-pass experiment  Crystal placed in the center  5 silicon strip detectors around  Track reconstruction : up- and downstream  yields deflection angles  (Preliminary) data analysis:  Determination of the crystal torsion  Crystal efficiency after torsion compensation courtesy M. Pesaresi Sep 20, 2013P. Schoofs, Update on the modelling of CC for FLUKA, CollUSM#28 13

14  Benchmarking against UA9-H8 data : channeling orientation  2 different types of crystals Quasi-Mosaic Strip  Bending angle ~50 urad for LHC ~100-200 urad for the SPS  LHC strip crystal (STF 71 – R.1191)  SPS strip crystal (STF 50 – R.889)  LHC QM crystal (QMP 28 – R.1028) Sep 20, 2013P. Schoofs, Update on the modelling of CC for FLUKA, CollUSM#28 14

15  Volume reflection orientation  SPS strip crystal (STF 50 – R.892) (NB: Log scale to better appreciate VC) Overall good agreement Sep 20, 2013P. Schoofs, Update on the modelling of CC for FLUKA, CollUSM#28 15

16  Semi-classical microscopic model of channeling  Description of dechanneling, volume reflection and volume capture Takes into account torsion and miscut  Uses FLUKA interaction models  Good agreement with results from UA9-H8 experiment for the channeling peak description for the dechanneling distribution volume capture rate  But : Slight underestimation of the dechanneling rate Exit kick determination still an open question  In the future : Finish implementation inside core FLUKA EMD ? Altered ionization in channeling ? Longer term : negatively charged particles, axial channeling,… Sep 20, 2013P. Schoofs, Update on the modelling of CC for FLUKA, CollUSM#28 16 Acknowledgement to the UA9 collaboration !

17 Thanks for your attention ! Sep 20, 2013P. Schoofs, Update on the modelling of CC for FLUKA, CollUSM#28 17

18 Sep 20, 2013P. Schoofs, Update on the modelling of CC for FLUKA, CollUSM#28 18

19 Sep 20, 2013P. Schoofs, Update on the modelling of CC for FLUKA, CollUSM#28 19

20 Sep 20, 2013P. Schoofs, Update on the modelling of CC for FLUKA, CollUSM#28 20

21 Sep 20, 2013P. Schoofs, Update on the modelling of CC for FLUKA, CollUSM#28 21

22 Sep 20, 2013P. Schoofs, Update on the modelling of CC for FLUKA, CollUSM#28 22

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