E.A.Kravchenko on behalf Novosibirsk group

Slides:

Advertisements

Similar presentations

A Study of Proximity Focusing RICH with Multiple Refractive Index Aerogel Radiator A Study of Proximity Focusing RICH with Multiple Refractive Index Aerogel.

Advertisements

USE OF GEANT4 FOR LHCB RICH SIMULATION S. Easo, RAL, LHCB AND ITS RICH DETECTORS. TESTBEAM DATA FOR LHCB-RICH. OVERVIEW OF GEANT4 SIMULATION.

C. Schwarz Physics with Antiprotons - Detector - Detector requirements Overview of the detector concept Selected detector components Simulations.

Marco Musy INFN and University of Milano-Bicocca Pylos, June 2002 Aerogel as Cherenkov radiator for RICH detectors for RICH detectors.

Применение MRS APD’s в прототипе FARICH- детектора для идентификации релятивистских частиц в эксперименте ALICE А.И.Берлев, Т.Л.Каравичева, Е.В.Карпечев,

Development of FARICH-detector for the ALICE experiment at CERN A.I.Berlev, T.L.Karavicheva, E.V.Karpechev, Yu.V.Kupchinskiy, A.B.Kurepin, A.N.Kurepin,

The HERMES Dual-Radiator Ring Imaging Cerenkov Detector N.Akopov et al., Nucl. Instrum. Meth. A479 (2002) 511 Shibata Lab 11R50047 Jennifer Newsham YSEP.

Carsten Schwarz PANDA June 2004 CID Cherenkov Imaging Detectors ● RICH software at HERMES, Ralf Kaiser, Glasgow ● Present status of DIRC, C.S., GSI ● Spiralling.

Peter Križan, Ljubljana March 17, 2006 Super B Workshop, Frascati Peter Križan University of Ljubljana and J. Stefan Institute Aerogel RICH and TOP: summary.

Antonis Papanestis RAL

Modelling of Electron Air Showers and Cherenkov Light A.Mishev J. Stamenov Institute for Nuclear Research and Nuclear Energy Bulgarian Academy of Sciences.

Position Sensitive SiPMs for Ring Imaging Cherenkov Counters C.Woody BNL January 17, 2012.

A Reconstruction Algorithm for a RICH detector for CLAS12 Ahmed El Alaoui RICH Workchop, Jefferson Lab, newport News, VA November th 2011.

May 31, 2008 SuperB PID sessionMarko Starič, Ljubljana Marko Starič J. Stefan Institute, Ljubljana Report on hardware tests and MC studies in Ljubljana.

Threshold aerogel Cherenkov counters of the KEDR detector A.Yu. Barnyakov *, M.Yu. Barnyakov, V.S. Bobrovnikov, A.R. Buzykaev, A.F. Daniluk, S.A. Kononov,

Performance of the PANDA Barrel DIRC Prototype 1 GSI Helmholtzzentrum für Schwerionenforschung GmbH, Darmstadt 2 Goethe-Universität Frankfurt Marko Zühlsdorf.

Study of a Silica Aerogel for a Cherenkov Radiator Ichiro Adachi KEK representing for the Belle Aerogel RICH R&D group 2007 October RICH2007, Trieste,

EIC Detector – JLab – 04/June/2010 Cisbani / HERMES RICH 1 HERMES: Forward RICH Detector Evaristo Cisbani / INFN-Rome Sanità Group Most of the slides from.

A RICH with Aerogel for a hadron machine On behalf of the LHCb RICH group Some results and considerations on: Cerenkov angle resolution from aerogel Index.

TOP counter overview and issues K. Inami (Nagoya university) 2008/7/3-4 2 nd open meeting for proto-collaboration - Overview - Design - Performance - Prototype.

work for PID in Novosibirsk E.A.Kravchenko Budker INP, Novosibirsk.

Development of TOP counter for Super B factory K. Inami (Nagoya university) 2007/10/ th International Workshop on Ring Imaging Cherenkov Counters.

PID for super Belle (design consideration) K. Inami (Nagoya-u) - Barrel (TOP counter) - Possible configuration - Geometry - Endcap (Aerogel RICH) - Photo.

16 June, 2015 В.И. Тельнов 1 Two-photon experiments with detector MD1 at VEPP-4 Valery Telnov Budker INP and Novosibirsk St. Univ. PHOTON 2015, June 16,

Mauro Iodice INFN Roma (Italy) Hall A Collaboration Meeting - JLAB May 18, 2004.

RICH simulation for CLAS12 Contalbrigo Marco INFN Ferrara Luciano Pappalardo INFN Ferrara Hall B Central Detector Forward Detector M. Contalbrigo1 JLAB12.

RICH Simulation in LHCb LHC Detector Simulation Workshop S.Easo, RAL, On behalf of LHCb–RICH group.

Aerogel Cherenkov Counters for the ALICE Detector G. Paić Instituto de Ciencias Nucleares UNAM For the ALICE VHMPID group.

RICH simulation for CLAS12 Contalbrigo Marco INFN Ferrara Luciano Pappalardo INFN Ferrara Hall B Central Detector Forward Detector M. Contalbrigo1JLAB12.

Tests of a proximity focusing RICH with aerogel as radiator and flat panel PMT (Hamamatsu H8500) as photon detector Rok Pestotnik Jožef Stefan Institute,

Recent test results of TGEM-Prototypes in INR, Moscow V.I.Razin, А.B.Kurepin, B.M.Ovchinnikov, A.I.Reshetin, E.A.Usenko, S.N.Filippov, D.A.Finogeev Institute.

Aerogel RICH & TOP counter for super KEKB Y.Mazuka Nagoya University June 14-16, 2006 The 3 rd SuperB workshop at SLAC.

TORCH – a Cherenkov based Time-of- Flight Detector Euan N. Cowie on behalf of the TORCH collaboration E N Cowie - TORCH - TIPP June 2014.

A.Yu.Barnyakov, M.Yu.Barnyakov, V.S.Bobrovnikov, A.R.Buzykaev, V.V.Gulevich, P.V.Kasyanenko, S.A.Kononov, D.V.Korda, E.A.Kravchenko, V.N.Kudryavtsev, I.A.Kuyanov,

RICH studies for CLAS12 L. Pappalardo1 Contalbrigo Marco Luciano Pappalardo INFN Ferrara CLAS12 RICH Meeting – JLab 21/6/2011.

Matthias Hoek Institut für Kernphysik Next Generation Cherenkov Counters* *For Accelerator Experiments 52. International Winter Meeting on Nuclear Physics.

FARICH status E.A.Kravchenko Budker INP, Novosibirsk, Russia.

PhD thesis: Simulation & Reconstruction for the PANDA Barrel DIRC Official name: Open charm analysis tools Supervisor: Prof. Klaus Peters Maria Patsyuk.

Optical Characterization and Performances of Aerogel Radiator L.Barion, G.Battaglia, M. Contalbrigo, P. Lenisa, A.Movsisyan, L. Pappalardo, M. Turisini.

Focusing Aerogel RICH Optimization A.Yu.Barnyakov, M.Yu.Barnyakov, V.S.Bobrovnikov, A.R.Buzykaev, V.V.Gulevich, S.A.Kononov, E.A.Kravchenko, A.P.Onuchin.

Status of the forward tracker design

Proximity focusing RICH with TOF capabilities for the Belle upgrade

Overview of SuperB Particle identification, and work towards the TDR

Status of the Forward RICH for PANDA

Particle Identification (PID) at HIEPA Experiment

Status of the PandaRoot simulation of the Forward RICH

FDIRC MC Studies: PMT Coupling Options

Status of GEANT4 in LHCb S. Easo, RAL, The LHCb experiment.

Focusing Aerogel RICH with SiPM Photodetectors

E.A.Kravchenko Budker INP, Novosibirsk, Russia

  at Super tau-charm

IHEP group Shashlyk activity towards TDR

Summary/Conclusions of the SuperB PID Sessions.

Focusing Aerogel RICH for PID and Momentum Measurement

Contalbrigo Marco INFN Ferrara RICH 2016, September 9th 2016, Bled

Particle Identification in LHCb

RICH simulation for CLAS12

Upgrade magnets and power supplies

TORCH – a Cherenkov based Time-of-Flight Detector

E.A.Kravchenko Budker INP, Novosibirsk, Russia

The HERMES RICH as SBS hadron identification detector

Monte Carlo simulation of the DIRC prototype

Upgrade magnets and power supplies

LHCb Particle Identification and Performance

RICH simulation for CLAS12

T. Bowcock University of Liverpool For the LHCb Collaboration

Development of microchannel plate phototubes in Novosibirsk

Gas Pixel TRD/Tracker With the support of the TRT collaboration

Development of the PANDA Forward RICH with an aerogel radiator

E.A.Kravchenko Budker INP, Novosibirsk, Russia

Presentation transcript:

E.A.Kravchenko on behalf Novosibirsk group FARICH for Forward PID E.A.Kravchenko on behalf Novosibirsk group

Outline Multi layer aerogel production and characterization FARICH optimization Status of work on test beam at Budker INP

Multilayer aerogel 100x100x41 mm, Lsc = 45 mm at 400 nm

Xray measurement, density distribution The increase in density at the internal borders is the result of the production procedure (diffusion). Does it effect the performance? Layer <n> n, (optimal) n, (design) h, mm h, mm (design) 1 1.046 1.050 12.6 12.5 2 1.041 1.040 1.044 13.2 13.3 3 1.037 1.035 1.039 15.2 14.2

Monte Carlo simulation of longitudinal refractive index fluctuations 200 mm expansion gap 3 types of radiators 3layer as designed (ideal) Xray data avereged to 3 layers Xray data avereged to 14 layers

Simulation results, π/K separation Npe =14 σβ = 5∙10-4 ‘optimal’ radiator → best resolution for 4 GeV/c pions ‘real’ experimental radiator → best resolution for 3.5 GeV/c kaons π/K separation up to 8 GeV/c (>3σ)

Layout of the FARICH in the SuperB detector-1

Layout of the FARICH in the SuperB detector-2

Proximity focusing RICH

4-layer focusing (MLA-4) Pixel size effect Single photon resolution with zero pixel size: MLA-4: σr,1ph = 1.1 mm Resolution degradation, % pixel size, mm Nanodes number of channels 10 1.8 28x28 329280 20 2.5 20x20 168000 50 4.3 12x12 60480

Number of photoelectrons Velocity resolution

Particle separation

FARICH momentum resolution σP/P=γ2∙σβ/β

Status of test beam project at Novosibirsk Work on MC simulation has started. But we are still at the very beginning. The project was discussed with VEPP-4M team and INP vice-director. It was suggested to use moving wire target to produce bremstrahlung gammas. The place was found. The design of this system has started. It will be mounted during KEDR detector stop for the repair.

Comparison of endcap FARICH and KEDR DC momentum resolution at 30° entrance angle

Velocity resolution with ‘ideal’ photon coordinate resolution

Particle separation with ‘ideal’ photon coordinate resolution

Single photon resolution with zero pixel size: RICH with NaF radiator Single photon resolution with zero pixel size: NaF 14 mm thickness: σr,1ph = 14 mm Resolution degradation, % pixel size, mm Nanodes number of channels 10 25 2x2 1680

Number of photoelectrons with NaF radiator

Velocity resolution with NaF radiator

Particle separation with NaF radiator

RICH momentum resolution with NaF radiator

Forward FARICH and DIRC comparison