Cherenkov light imaging in particle and nuclear physics experiments [Toru Iijima (Nagoya), Blair Ratcliff (SLAC)] Cherenkov detectors in astroparticle.

Slides:

Advertisements

Similar presentations

1 HARP A fixed-target experiment at the CERN Proton Synchrotron ( ) Hadron Production Experiment (PS214) Neutrino Factory Atmospheric Neutrino.

Advertisements

NEWS: Nuclear Emulsion Wimp Search

DPG 2004 Köln C. Schwarz Particle Identification with the PANDA detector at GSI C.Schwarz, GSI.

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

Takashi Sako (STE lab/KMI, Nagoya University) for the LHCf collaboration HEAP 2011, Nov. 2011, KEK 1.

Peter Križan, Ljubljana Peter Križan University of Ljubljana and J. Stefan Institute The HERA-B RICH counter.

Concept of the PANDA Detector for pp&pA at GSI Physical motivation for hadron physics with pbars The antiproton facility Detector concept Selected simulation.

CLAS12 – RICH PARAMETERDESIGN VALUE Momentum range3-8 GeV/c  /K rejection factor Not less than 500  /p rejection factor Not less than 100 Angular coverage5.

Cherenkov Detectors for b Physics Sacha Kopp University of Texas at Austin cos  C = 1/(n  ) CC “radiator” “photo-detector”

EUSO: Extreme Universe Space Observatory Jessica Cerny Bancroft-Rosalie School.

PID Nagoya univ1 The possibility of improving TOP counter Nagoya university Yuji Enari.

Search for Extremely-high Energy Cosmic Neutrino with IceCube Chiba Univ. Mio Ono.

H.E.G.R.A. High Energy Gamma Ray Astronomy By: Lisa Busing.

Sept. 18, 2008SLUO 2008 Annual Meeting Detector R&D at KIPAC Hiro Tajima Kavli InStitute of Particle Astrophysics and Cosmology.

July 2007 HARP results EPS2007 Manchester Alain Blondel New Results from HARP A HAdRon Production experiment at the CERN PS (PS214) Atmospheric Neutrino.

Abstract We constructed and tested seven scintillation counters using photomultiplier tubes, in order to create a fast electronic coincidence “trigger”

10 Picosecond Timing Workshop 28 April PLANACON MCP-PMT for use in Ultra-High Speed Applications.

Copyright © Hamamatsu Photonics K.K. All Rights Reserved. Oct at NNN07 Workshop Hamamatsu Photonics Electron Tube Division Recent Progress in PMTs.

Erik Fröjdh CERN, Mid Sweden University. Characterization of hybrid pixel detectors Applications for dosimetry in mixed radiation fields.

SIXTH INTERNATIONAL WORKSHOP ON RICH IMAGING CHERENKOV TRIESTE Hosting Institution: INFN S. Dalla Torre Playa del Carmen 3/12/2004.

Latest developments in Hamamatsu Large Format PMTs

MPPC R&D status Kobe Univ. CALICE collaboration meeting Yuji SUDO Univ. of Tsukuba ~ contents ~ Introduction Linearity curve Recovery time.

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

The Poor Man’s RICH Concept: A One-Dimensional Dual Radiator RICH

Status and Prospects of HARP Malcolm Ellis On behalf of the HARP Collaboration NuFact02 Imperial College, July 2002.

Concluding Remarks Thomas Roser BNL. Spin Symposia are uniquely dedicated to the fundamental role of spin in nuclear and particle physics. Some SPIN2006.

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

Improved PMTs for the Cherenkov Telescope Array project Razmik Mirzoyan for the Focal Plane Instrumentation WG Max-Planck-Institute for Physics Munich,

FINUPHY Instrumentation for radioactive nuclear beam facilities Rauno Julin FINUPHY Madeira, February 9, 2005.

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,

Development of 144 Channel Multi-Anode HPD for Belle Aerogel RICH Photon Detector Development of 144 Channel Multi-Anode HPD for Belle Aerogel RICH Photon.

How do you drive the world’s biggest machine?

CLAS12 – RICH PARAMETERDESIGN VALUE Momentum range3-8 GeV/c  /K rejection factor Not less than 500  /p rejection factor Not less than 100 Angular coverage5.

Experimental set-up for on the bench tests Abstract Modeling of processes in the MCP PMT Timing and Cross-Talk Properties of BURLE/Photonis Multi-Channel.

A short introduction to the Summer Student Hardware Labs Olav Ullaland, EP CERN.

DEVELOPMENT OF A THGEM-BASED PHOTON DETECTOR FOR CHERENKOV IMAGING APPLICATIONS Silvia Dalla Torre INFN - Trieste On behalf of an Alessandria-CERN-Freiburg-Liberec-Prague-Torino-TriesteCollaboration.

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

Performance Analysis of Poly- and Nano-Crystalline Diamond based Photocathodes 6 th International Workshop on Ring Imaging Cherenkov Counters (RICH 2007)

Peter Križan, Ljubljana Peter Križan University of Ljubljana and Jožef Stefan Institute Lepton Photon 2015 Introduction to the venue August 2015,

Muon Conference Pigi Paolucci. Front-End Control and Monitoring System for the Resistive Plate Chambers at the CMS Experiment Contributed to be given.

Large Format PMTs from Hamamatsu Photonics

Scan ~100 bar entry positions with laser diode measures transmitted intensity (relative to reference intensity) determine attenuation length (Λ) by aiming.

“Tests of a proximity focusing RICH with aerogel as radiator” Toru Iijima / Nagoya University for Belle Aerogel-RICH R&D.

1 Status of the T2K long baseline neutrino oscillation experiment Atsuko K. Ichikawa (Kyoto univeristy) For the T2K Collaboration.

H A R P A Hadron Production Experiment at the Proton Synchrotron at CERN Motivation for the HARP experiment The HARP Detector MiniBooNE and HARP.

Radia Sia Syracuse Univ. 1 RICH 2004 Outline:  The CLEO-III RICH Detector  Physics Requirements  CLEO-III RICH at work… Performance of the CLEO-III.

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

1 Limitations in the use of RICH counters to detect tau-neutrino appearance Tord Ekelöf /Uppsala University Roger Forty /CERN Christian Hansen This talk.

Scoping study for a future accelerator neutrino complex Blackett Laboratory - Imperial College - London Discussion meeting 6-7 May 2005 Photo-detectors.

Peter Križan, Ljubljana Dec 7, 2007 Mini WS, SLAC Peter Križan University of Ljubljana and J. Stefan Institute Simulations for SuperBelle SuperB computing.

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

M.Teshima (MPP, U-Tokyo) M.Pimenta (LIP) T.Schweizer (MPP)

A Barrel DIRC using radiator plates AntiProton ANnihilations at DArmstadt Study of QCD with Antiprotons Charmonium Spectroscopy Search for Exotics Hadrons.

Study of Cherenkov detectors for high momentum charged particle identification in ALICE experiment at LHC Guy Paic Instituto de Ciencias Nucleares UNAM.

Peter Križan, Ljubljana September 17, 2008 SuperB PID Peter Križan University of Ljubljana and J. Stefan Institute Forward PID: - SiPM as photon detectors.

X’s and O’s Boaz Klima Fermilab Blois2014 May 19, 2014 Welcome & Admin.

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

RICH2016 SESSIONS •Cherenkov light imaging in particle and nuclear physics experiments [Toru Iijima (Nagoya), Blair Ratcliff (SLAC)] •Cherenkov detectors.

Overview of SuperB Particle identification, and work towards the TDR

Efficient transfer reaction method with RI BEams

San Luis Potosi – New plant MAY 8TH 2015

Introduction by Y. suzuki

Simulation for Fast Focusing DIRC R&D

Instrumentation and Methods in Astroparticle Physics Physics 801

Instituto de Ciencias Nucleares UNAM

Progress on the Focusing DIRC R&D

Recent Progress in Large Format PMTs

Future plans and world trend

Detection of GRB with Water Cherenkov Detectors

Presentation transcript:

Cherenkov light imaging in particle and nuclear physics experiments [Toru Iijima (Nagoya), Blair Ratcliff (SLAC)] Cherenkov detectors in astroparticle physics [Gregory Hallewell (Marseille), Werner Hofmann (Heidelberg)] Novel Cherenkov imaging techniques for future experiments [Peter Krizan (Ljubljana), Jacques Seguinot (Paris)] Photon detection techniques for Cherenkov counters [Antonello Di Mauro (CERN), Christian Joram (CERN)] Technological aspects of Cherenkov detectors [Silvia Dalla Torre (Trieste), Eugenio Nappi (Bari)] Pattern recognition and data analysis [Jurgen Engelfried (San Luis Potosi), Roger Forty (CERN)] Alternative PID techniques [Takayuki Sumiyoshi (Tokyo Metropolitan), Jerry Va'vra (SLAC)] SESSIONS

Review talks Cherenkov light imaging in High Energy and Nuclear Physics Jochen Schwiening (GSI, Germany) Cherenkov light imaging in Astroparticle Physics Razmik Mirzoyan (MPI, Germany) Use of RICH detectors for physics Sheldon Stone (Syracuse, USA) Optical components for Cherenkov light imaging devices Jerry Va'vra (SLAC, USA) Status and perspectives of vacuum-based photon detectors Oswald Siegmund (Berkeley, USA) Status and perspectives of solid state photon detectors Gianmaria Collazuol (Padova, Italy) Status and perspectives of gaseous photon detectors Antonello Di Mauro (CERN, Switzerland) Other PID techniques Neville Harnew (Oxford, UK) Summary talk Keynote talks Masatoshi Koshiba (Univ. of Tokyo) Youichiro Suzuki (ICRR, Univ. of Tokyo) Special talk Yuji Yoshizawa (Hamamatsu Photonics K.K.)

8 invited x 40’ + 40 contr. talks x25’ = 1320’ = 22 hours alternatively 8x40’ + 50 x 20’