Presentation is loading. Please wait.

Presentation is loading. Please wait.

The Pixel Hybrid Photon Detectors of the LHCb RICH

Published byKora Bretz Modified over 5 years ago

Similar presentations

Presentation on theme: "The Pixel Hybrid Photon Detectors of the LHCb RICH"— Presentation transcript:

1 The Pixel Hybrid Photon Detectors of the LHCb RICH
Presented by Flavio Fontanelli (Universita’ di Genova and I.N.F.N.) on behalf of the LHCb RICH Collaboration 11th Topical Seminar on Innovative Particle and Radiation Detectors (IPRD08) October 2008   Siena, Italy

2 Outline LHCb detector RICH detectors structure
HPDs working principle and characteristics First results from commissioning runs Current issues and future plans

3 LHCb Detector p Tracking system Muon system Dipole magnet 250 mrad
Vertex Locator Dipole magnet Tracking system Calorimeters Muon system 250 mrad 10 mrad p RICH detectors LHCb will investigate the properties of the b quark and the CPV-related Physics. Detector has a single-arm structure with good particle identification capabilities provided by 2 RICH detectors.

4 RICH1: Radiator C4F10 (85 cm) and Aerogel (5 cm)
Momentum between 1 and 60 GeV/c Acceptance: 25 – 300 mrad Magnetic shield box Vertical X-section HPD plane: 7 columns, 14 tubes each

5 RICH2: Top view Side view Radiator CF4 (180 cm)
Momentum range: between 17 and 100 GeV/c Acceptance : 10 – 120 mrad Top view Side view For a general description of RICH detectors see D. Perego’s poster at this conference

6 Characteristics of HPD focal planes
484 HPDs (Hybrid Photon Detector) : 196 for RICH1 and 288 for RICH2 ~3.3 m2 total surface Granularity: 2.5 x 2.5 mm2 (almost 0.5 million pixels) Active area coverage >65 % Single-photon sensitivity between nm Magnetic fringe field <25 G Read-out: Compatible with LHC 40MHz bunch crossing frequency 10% occupancy (worst case)

7 On-detector Off-detector A RICH2 column DAQ link data fibres
TTC fibres power cables control system DAQ link A RICH2 column HPDs are mounted on columns together with readout electronics, power distribution & active cooling

8 HPD : The Hybrid Photon Detector
Peak eff. 270nm e- LHCBPIX1 -16.4 kV -19.7 kV -20 kV

9 HPD characteristics HPDs developed in close collaboration with industry (Photonis-DEP lead partner) Quartz window with S20 photocathode Cross focusing optics: 20 kV operating voltage Demagnification of ~5 Point Spread Function 200 mm at the chip level Encapsulated binary electronics readout chip Two possible readout configuration: 256x32 basic pixels (0.0625x0.5 mm2 each) 32x32 pixels (0.5x0.5 mm2 each) OR-ing 8 basic pixels at the digital level (no increase of noise) 87 mm 120 mm

10 The solid state electronics
Silicon sensor made by Canberra Expected signal: kV (2000 e- worst case in case of charge sharing) Threshold: 970 e- Noise: 130 e-

11 System tests in a test beam
The very good noise performance of HPDs are shown in this image obtained during a test run using a 80 GeV/c charged particle beam at CERN SPS. C4F10 ~1m. radiator length. Pixel map of a C4F10 ring focused on 4 HPDs integrated over ~50k events Photon Yield

12 Sensitivity to magnetic fields
B┴ B║ Axial Transverse 30G 30G Coils HPD (shielded with m-metal) LED & collimator used to produce pattern of light on HPD

13 Effects of magnetic field on pixel position can be quickly spotted using a commercial projector illuminating the focal plane with a fixed point pattern. After filtering and pattern recognition we may compute the center of mass of each spot of light and then calculate how much a point has been rotated by the stray field on the RICH2 focal plane (1 HPD shown) Pattern seen by one of the RICH2 HPDs

14 The net rotation effect due to stray magnetic field can be clearly seen here where the rotation angle <Dq > is plotted against HPD number

15 Single photon accumulated image taken shining from a projector (the same used for the magnetic distortion) on the C-side of RICH2. The light level over the whole surface is ~100 photoelectrons per event. And when you have a beamer at your disposal you may use it to project on the focal plan whatever you want…

16 RICH1 Detector Time alignment
Fine time alignment of Level 0 trigger required, in order to maximize photon collection efficiency: Use 100ps pulsed laser Delay of readout varied in steps of 1ns with respect to laser pulse S L0 board HPD 0 Not yet optimized ! HPD 1 Data acquired while scanning the trigger delay

17 And finally you get (preliminary) DATA ! (only one beam injected)
Rich2 A-side C-side Rich1 Upper and lower box Run number events accumulated (only Rich1 time aligned) – Tracks not directed from interaction point.

18 Conclusions LHCb RICH System is working and we started acquiring first data. We have to complete alignment and calibrate it, but we already have seen photons from tracks and we are confident the RICH detectors will give beautiful physics results. HPDs present many nice features and for sure they will be much used in future detectors.

Download ppt "The Pixel Hybrid Photon Detectors of the LHCb RICH"

Similar presentations

USE OF GEANT4 FOR LHCB RICH SIMULATION S. Easo, RAL, 5-7-2001 LHCB AND ITS RICH DETECTORS. TESTBEAM DATA FOR LHCB-RICH. OVERVIEW OF GEANT4 SIMULATION.

USE OF GEANT4 FOR LHCB RICH SIMULATION S. Easo, RAL, LHCB AND ITS RICH DETECTORS. TESTBEAM DATA FOR LHCB-RICH. OVERVIEW OF GEANT4 SIMULATION.
Assisi – 23 June 2005 Tito Bellunato 1 Status of the LHCb RICH detector and the HPD Beauty 2005 Assisi – 23 June 2005 Tito Bellunato – Università degli.

Assisi – 23 June 2005 Tito Bellunato 1 Status of the LHCb RICH detector and the HPD Beauty 2005 Assisi – 23 June 2005 Tito Bellunato – Università degli.
Description of BTeV detector Jianchun Wang Syracuse University Representing The BTeV Collaboration DPF 2000 Aug 9 - 12, 2000 Columbus, Ohio.

Description of BTeV detector Jianchun Wang Syracuse University Representing The BTeV Collaboration DPF 2000 Aug , 2000 Columbus, Ohio.
The LHCb Inner Tracker LHCb: is a single-arm forward spectrometer dedicated to B-physics acceptance: 15-300(250)mrad: The Outer Tracker: covers the large.

The LHCb Inner Tracker LHCb: is a single-arm forward spectrometer dedicated to B-physics acceptance: (250)mrad: The Outer Tracker: covers the large.
Marco Musy INFN and University of Milano-Bicocca Pylos, June 2002 Aerogel as Cherenkov radiator for RICH detectors for RICH detectors.

Marco Musy INFN and University of Milano-Bicocca Pylos, June 2002 Aerogel as Cherenkov radiator for RICH detectors for RICH detectors.
The Transverse detector is made of an array of 256 scintillating fibers coupled to Avalanche PhotoDiodes (APD). The small size of the fibers (5X5mm) results.

The Transverse detector is made of an array of 256 scintillating fibers coupled to Avalanche PhotoDiodes (APD). The small size of the fibers (5X5mm) results.
The HERMES Dual-Radiator Ring Imaging Cerenkov Detector N.Akopov et al., Nucl. Instrum. Meth. A479 (2002) 511 Shibata Lab 11R50047 Jennifer Newsham YSEP.

The HERMES Dual-Radiator Ring Imaging Cerenkov Detector N.Akopov et al., Nucl. Instrum. Meth. A479 (2002) 511 Shibata Lab 11R50047 Jennifer Newsham YSEP.
Jornadas LIP, Dez. 2005 P. Martins - CFTP-IST The NA60 Silicon Vertex Telescopes Dimuon measurements Dimuon measurements Vertex telescope used in: Vertex.

Jornadas LIP, Dez P. Martins - CFTP-IST The NA60 Silicon Vertex Telescopes Dimuon measurements Dimuon measurements Vertex telescope used in: Vertex.
Overview of LHCb RICH Detector Development On Behalf of LHCb-RICH Group RICH2004 Playa Del Carmen, Mexico December 4, 2004 S. Easo Rutherford-Appleton.

Overview of LHCb RICH Detector Development On Behalf of LHCb-RICH Group RICH2004 Playa Del Carmen, Mexico December 4, 2004 S. Easo Rutherford-Appleton.
Position Sensitive SiPMs for Ring Imaging Cherenkov Counters C.Woody BNL January 17, 2012.

Position Sensitive SiPMs for Ring Imaging Cherenkov Counters C.Woody BNL January 17, 2012.
The ATLAS Pixel Detector - Running Experience – Markus Keil – University of Geneva on behalf of the ATLAS Collaboration Vertex 2009 Putten, Netherlands,

The ATLAS Pixel Detector - Running Experience – Markus Keil – University of Geneva on behalf of the ATLAS Collaboration Vertex 2009 Putten, Netherlands,
The ALICE Silicon Pixel Detector Gianfranco Segato Dipartimento di Fisica Università di Padova and INFN for the ALICE Collaboration A barrel of two layers.

The ALICE Silicon Pixel Detector Gianfranco Segato Dipartimento di Fisica Università di Padova and INFN for the ALICE Collaboration A barrel of two layers.
Jornadas LIP 2008 – Pedro Ramalhete. 17 m hadron absorber vertex region 8 MWPCs 4 trigger hodoscopes toroidal magnet dipole magnet hadron absorber targets.

Jornadas LIP 2008 – Pedro Ramalhete. 17 m hadron absorber vertex region 8 MWPCs 4 trigger hodoscopes toroidal magnet dipole magnet hadron absorber targets.
RICH detectors for LHCb Tito Bellunato INFN Milano-Bicocca On behalf of the LHCb RICH collaboration 10th International Conference on Instrumentation for.

RICH detectors for LHCb Tito Bellunato INFN Milano-Bicocca On behalf of the LHCb RICH collaboration 10th International Conference on Instrumentation for.
Åsmund Skjæveland Magnetic Distortion of HPD Images.

Åsmund Skjæveland Magnetic Distortion of HPD Images.
HPD Performance in the RICH Detectors of the LHCb Young Min Kim University of Edinburgh IoP HEPP Conference – April 2009 1.

HPD Performance in the RICH Detectors of the LHCb Young Min Kim University of Edinburgh IoP HEPP Conference – April
My working experience Marco Villa Tue, 2 nd Dec 2008.

My working experience Marco Villa Tue, 2 nd Dec 2008.
Installation and operation of the LHCb Silicon Tracker detector Daniel Esperante (Universidade de Santiago de Compostela) on behalf of the Silicon Tracker.

Installation and operation of the LHCb Silicon Tracker detector Daniel Esperante (Universidade de Santiago de Compostela) on behalf of the Silicon Tracker.
Status of the MaPMT o Status quo o Ongoing work o Issues – mechanics – electronics – schedule o Conclusions LHCb meeting Milano 26. 9. 2000 Franz Muheim.

Status of the MaPMT o Status quo o Ongoing work o Issues – mechanics – electronics – schedule o Conclusions LHCb meeting Milano Franz Muheim.
Development of the RICH Detectors in LHCb S. Easo Rutherford-Appleton Laboratory June 5, 2002 RICH2002 PYLOS, GREECE For the LHCb-RICH Group.

Development of the RICH Detectors in LHCb S. Easo Rutherford-Appleton Laboratory June 5, 2002 RICH2002 PYLOS, GREECE For the LHCb-RICH Group.

Similar presentations

Ads by Google