1 IBF in aligned, misaligned and FLOWER THGEMs The IBF problem Standard THGEM configuration COBRA and extra electrode Misaligned holes FLOWER THGEM solution.

Slides:



Advertisements
Similar presentations
INFN Trieste, October 2008 Summary of measurements on: CsI coated ThGEM triple CERN.
Advertisements

1 October Test beam - THGEM group Alessandria-CERN-Freiburg-Liberec-Prague-Torino-Trieste Collaboration 4 th RD51 collaboration meeting Jarda.
1 First observations on CsI -coated ThGEM in Trieste presented by Gabriele Giacomini phone meeting 06/08/2008.
Micro MEsh GASeous Detectors (MicroMegas)
Gas Detector Developments Jin Li. Liquid Xenon case Liquid Xenon can be considered as a gaseous xenon of 520 atm. K.Masuda, S. Takasu, T.Doke et al. (Doke.
GEM Detector Shoji Uno KEK. 2 Wire Chamber Detector for charged tracks Popular detector in the particle physics, like a Belle-CDC Simple structure using.
RF test of the GEM detector prototipe Detector description RF test area (LINAC3) detector working conditions RF field measurement Detector measurements.
Status of simulation studies of IBF for GEMs
Micro Pattern Gas Detector Technologies and Applications The work of the RD51 Collaboration Marco Villa (CERN), Andrew White (University of Texas at Arlington)
1 Fulvio TESSAROTTO RD51 meeting, Paris, 14/10/2008 THGEM production at ELTOS Production of THGEM at ELTOS S.p.A. Company profile Production procedures.
C.Shalem et al, IEEE 2004, Rome, October 18 R. Chechik et al. ________________RICH2004_____________ Playa del Carmen, Mexico 1 Thick GEM-like multipliers:
A. Breskin RD51 Amsterdam 4/08 ION BLOCKING & visible-sensitive gas-PMs Efficient ion blocking in gaseous detectors and its application to visible-sensitive.
A. Lyashenko INSTR08 – BINP – Feb ION BLOCKING & visible-sensitive gas-PMs Efficient ion blocking in gaseous detectors and its application to visible-sensitive.
New Developments in Large Area THGEMs & APV Exercise INFN – Sezione di Trieste Carlos Alexandre Fernandes dos Santos 11/December/2014.
1 Fulvio TESSAROTTO CERN, 23/04/ Contribution from Trieste UPDATE ON TRIESTE LAB. ACTIVITY The set-up to measure currents THGEM prototypes from ELTOS.
1 First observations on CsI -coated ThGEM in Trieste presented by Gabriele Giacomini phone meeting 06/08/2008.
D. Attié CEA Saclay/Irfu RD51 – ALICE Workshop June 18 th, 2014 ILC-TPC Micromegas: Ion Backflow Measurements.
Technological Aspects and Developments of New Detector structures
GEM: A new concept for electron amplification in gas detectors Contents 1.Introduction 2.Two-step amplification: MWPC combined with GEM 3.Measurement of.
1 NA58 RICH Test Beam T10 sept.2014 Fulvio Tessarotto – Stefano Levorato Partecipants: Alessandria, Aveiro, Budapest, Calcutta, Freiburg, Liberec, Prague,
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.
5 th RD51 meeting (WG1) 25 May 2009 Atsuhiko Ochi ( Kobe University )
Lab tests of Thick GEMs (THGEM) Lab tests of Thick GEMs (THGEM) S. Dalla Torre, Elena Rocco, L. Ropelewski, F. Tessarotto May – August 2007.
What we did up to now: Summary of the measurements performed up to now with the gas setup built for the THGEMs coated with the CsI. Photocurrent measurements.
1 Fulvio TESSAROTTO GDD meeting, CERN, 01/10/2008 Trieste THGEM news First indications from electrostatic simulation exercise Goals of the simulation Parameters.
R & D at BHU B.K. Singh (On behalf of HEP Group).
GEM basic test and R&D plan Takuya Yamamoto ( Saga Univ. )
Summary of MM meeting at CEA Saclay, 25/26 Jan 2010 Some selected topics.
Update on THGEMs and Micromegas production for RICH-1 COMPASS Upgrade on behalf of THGEM Trieste group INFN - Sezione di Trieste S . Levorato S. Levorato.
Study of a charge distribution on a readout board with a triple GEM chamber MPGD group T. Uchida, M. Sekimoto, T. Murakami, M. Tanaka, S. Tanaka, N. Ujiie,
1 Fulvio TESSAROTTO CERN, 20/03/ GDD Meeting - Contribution from Trieste FIRST LOOK AT THGEM IN TRIESTE LAB. The set-up to measure currents THGEM.
Large THGEMs, uniformity and gain largely based on the paper for MPGD13 and some recently obtained results S. Levorato THGEM meeting CERN 13 Nov
A.Ochi*, Y.Homma, T.Dohmae, H.Kanoh, T.Keika, S.Kobayashi, Y.Kojima, S.Matsuda, K.Moriya, A.Tanabe, K.Yoshida Kobe University PSD8 Glasgow1st September.
Discharge Studies in MPGD: what could be done in the frame of WG-2 collaboration P. Fonte, V. Peskov.
Construction and Characterization of a GEM G.Bencivenni, LNF-INFN The lesson is divided in two main parts: 1 - construction of a GEM detector (Marco Pistilli)
Report on very preliminary measurements of 10x10cm 2 Triple-GEM detectors with New Single Mask technique Overview Hole geometry Experimental setup Transparency.
Recent progress in large THGEM production On behalf of Trieste group and Rui de Oliveira (CERN) S. Levorato RD51 mini week1.
1 Fulvio TESSAROTTO THGEM discussion, 02/11/2009 THGEM production at ELTOS Production of THGEM at ELTOS S.p.A. Company profile Production procedures Small.
T. Zerguerras- RD51 WG Meeting- CERN - February Single-electron response and energy resolution of a Micromegas detector T. Zerguerras *, B.
1 Fulvio TESSAROTTO CERN, 13/11/ COMPASS THGEM meeting Construction of the large size Hybrid Prototype The bulk Micromegas technology Examples of.
A.Ochi Kobe University MPGD2009 Crete 13 June 2009.
1 Fulvio TESSAROTTO GDD meeting, CERN, 01/10/2008 Trieste THGEM news New THGEM test in the COMPASS hall New THGEM test in the COMPASS hall Preparation.
16 Sept PSD 7 Liverpool 1 MHSP with position detection capability MHSP with position detection capability H. Natal da Luz a,b, J.F.C.A. Veloso a,b,
Single GEM Measurement Matteo Alfonsi,Gabriele Croci and Bat-El Pinchasik June 25 th 2008 GDD Meeting 1.
Update on THGEM project for RICH application Elena Rocco University of Eastern Piedmont & INFN Torino On behalf of an Alessandria-CERN-Freiburg-Liberec-
Recent THGEM investigations A. Breskin, V. Peskov, J. Miyamoto, M. Cortesi, S. Cohen, R. Chechik Weizmann Institute RD51 Paris Oct 08 - Gain: UV vs. X-rays.
Gas Electron Multiplier
GEM-MSTPC for direct measurements of astrophysical reaction rates H. Ishiyama 1, K. Yamaguchi 2, Y. Mizoi 3, Y.X. Watanabe 1, T. Hashimoto 4, M.H. Tanaka.
1 Fulvio TESSAROTTO CERN, 13/02/ GDD Meeting - Contribution from Trieste THGEM: TRIESTE LAB. EQUIPMENT AND CONTACTS WITH POSSIBLE PRODUCER Introduction.
1 IWAD 2014 IWAD2014, Kolkata 2-7/5/2010 Gaseous Photon DetectorsSilvia DALLA TORRE Photon Detection with MPGDs S. Dalla Torre.
R&D activities on a double phase pure Argon THGEM-TPC A. Badertscher, A. Curioni, L. Knecht, D. Lussi, A. Marchionni, G. Natterer, P. Otiougova, F. Resnati,
First results from tests of gaseous detectors assembled from resistive meshes P. Martinengo 1, E. Nappi 2, R. Oliveira 1, V. Peskov 1, F. Pietropaola 3,
Thick-GEM sampling element for DHCAL: First beam tests & more
IBF studies of triple and quadruple GEM for the ALICE TPC upgrade
Trieste proposal for the
Single GEM Measurement
Hybrid MPGD based photon detector, R&D update.
IBF in THGEM-based PHOTON DETECTORS, an update
standard THGEM versus FLOWER
Updates on the Micromegas + GEM prototype
WG1 Task2 New structures, new designs, new geometries
THGEM: Introduction to discussion on UV-detector parameters for RICH
Numerical simulations on single mask conical GEMs
Numerical simulations on single mask conical GEMs
THGEM report – january, 22nd 2009
Development of a THGEM-based photon detector for RICH applications
First observations on CsI-coated ThGEM in Trieste - ADDENDUM -
MWPC’s, GEM’s or Micromegas for AD transfer and experimental lines
Development of a THGEM-based photon detector for RICH applications
Presentation transcript:

1 IBF in aligned, misaligned and FLOWER THGEMs The IBF problem Standard THGEM configuration COBRA and extra electrode Misaligned holes FLOWER THGEM solution THGEM + Micromega Conclusions Fulvio Tessarotto ( I.N.F.N. – Trieste ) RD51 miniweek, WG1, CERN, 14/06/2012, IBF studies with THGEMs Fulvio TESSAROTTO

2 OUR FIRST THGEM-BASED PDs CsI coating Triple THGEM (CsI) Ar/CH 4 Diam=0.4 mm, pitch =0.8, Thick=0.4, rim  10  m Pulsed Diode Laser Active area = 30 mm x 30 mm RD51 miniweek, WG1, CERN, 14/06/2012, IBF studies with THGEMs Fulvio TESSAROTTO

3 Gain around 1 M Effective gain = 0.91 · 10 6 Triple THGEM Ar/CH 4 : 50/50 PARAMETERS: Diam. = 0.4 mm Pitch = 0.8 mm Thickn. = 0.4 mm Rim = 10 μm RD51 miniweek, WG1, CERN, 14/06/2012, IBF studies with THGEMs Fulvio TESSAROTTO

4 typical charge sharing, no optimization Induction Transfer 1 Transfer 2 drift THGEM 1 THGEM 2 Drift THGEM 3 anode 26% 5% 68% 1% 47% 49% 4% 0% field values optimization could reduce IBF by a factor 2 at most Transfer 1 Transfer 2 Induction RD51 miniweek, WG1, CERN, 14/06/2012, IBF studies with THGEMs Fulvio TESSAROTTO

5 Reducing the ion backflow is possible with more complex geometries: Micro-Hole & Strip Plate (MHSP), COBRA J.F.C.A. Veloso et al., Rev.Sc. Instr. 71 (2000) 2371 A.V. Lyashenko et al., JINST 2 (2007) P08004 MHSP COBRA A.V. Lyashenko et al., NIMA 598 (2009) 116 RD51 miniweek, WG1, CERN, 14/06/2012, IBF studies with THGEMs Fulvio TESSAROTTO

6 Loosing robustness and constraining too much the geometry RD51 miniweek, WG1, CERN, 14/06/2012, IBF studies with THGEMs Fulvio TESSAROTTO The COBRA way

7 Sparks may damage tiny pists spark Samples of 20 different types Determine the breakdown voltage Use this information to properly design the THGEM segmentation RD51 miniweek, WG1, CERN, 14/06/2012, IBF studies with THGEMs Fulvio TESSAROTTO

8 Inserting a dedicated electrode Reduces by a factor 4 the ion feed-back without gain losses RD51 miniweek, WG1, CERN, 14/06/2012, IBF studies with THGEMs Fulvio TESSAROTTO

9 Hole alignment RD51 miniweek, WG1, CERN, 14/06/2012, IBF studies with THGEMs Fulvio TESSAROTTO Inspired by the study of F. Sauli, L. Ropelewski, P. Everaerts on GEM IBF: NIM A 260 (2006) 269, we decided to study the effect of THGEM hole alignment on IBF. we produced (ELTOS) THGEMs with a special symmetry: the holes of the flipped THGEM are displaced by p·√3/3 with respect to the holes before flipping

10 T1 B1 T2 B2 D A %32.3% 0% 0.87% 5.1% 0.78% 59.7% 0%62.5% 35.8% IBF of Aligned DoubleTHGEM 1.2kV/cm 0 kV/cm RD51 miniweek, WG1, CERN, 14/06/2012, IBF studies with THGEMs Fulvio TESSAROTTO a case study: low gain on low gain on the first the first THGEM, THGEM, high gain on the second THGEM T1 IBF = 32 %

11 IBF of Misaligned DTHGEM 1.2kV/cm 0 kV/cm ~0%14.2% 0% ~0% 9.8% ~0%76.2% 0% 77.3% 22.7% Staggered holes provide lower IBF RD51 miniweek, WG1, CERN, 14/06/2012, IBF studies with THGEMs Fulvio TESSAROTTO for 1.2 kV/cm T1 IBF = 14 %

12 IBF of Misaligned DTHGEM study 2.4kV/cm 1.2kV/cm 0 kV/cm ~0%3.1% 0% ~0% 27.5% ~0%68.5% 0% 79.2% 20.7% Doubling the transfer field, the ions will hit B1 instead of drifting to T1. RD51 miniweek, WG1, CERN, 14/06/2012, IBF studies with THGEMs Fulvio TESSAROTTO for 2.4 kV/cm T1 IBF = 3 %

13 Triple THGEM configuration Flipping the central THGEM provides the maximally misaligned configuration 7.6 mm 2.5 mm 2.0 mm D 1 A V 1575 V 700 V RD51 miniweek, WG1, CERN, 14/06/2012, IBF studies with THGEMs Fulvio TESSAROTTO tests performed in aligned and misaligned configuration Flipping the central M2.4 provides the maximally misaligned configuration all parameters have been varied, all currents + signal amplitudes measured

14 IBF for misaligned THGEMs Numbers are IBF% RD51 miniweek, WG1, CERN, 14/06/2012, IBF studies with THGEMs Fulvio TESSAROTTO

15 “FLOWER” THGEM M3.9: T=0.4mm,R=0.6mm,P=1.2mm M4.1: T=0.8mm,R=0.3mm,P=0.6mm mm M3.9 M4.1 Drift dis. 10.6mm Transfer dis. 2.5mm Induction dis. 2.5mm RD51 miniweek, WG1, CERN, 14/06/2012, IBF studies with THGEMs Fulvio TESSAROTTO

16 FLOWER” THGEM 4. Check the IBF effect using M4.1 / M3.7 configuration. RD51 miniweek, WG1, CERN, 14/06/2012, IBF studies with THGEMs Fulvio TESSAROTTO

17 17 “FLOWER” THGEM

18 Anodic current (A/Tot) 1.2 kV/cm induction field 2.0 kV/cm induction field Anode current is almost not affected by the transfer field value RD51 miniweek, WG1, CERN, 14/06/2012, IBF studies with THGEMs Fulvio TESSAROTTO I anode / I total (%)

19 The ions collected at B1 (B1/Tot) 1.2 kV/cm induction field 2.0 kV/cm induction field More ions are collected at B1 when transfer field increases RD51 miniweek, WG1, CERN, 14/06/2012, IBF studies with THGEMs Fulvio TESSAROTTO I bottom1 / I total (%)

20 IBF measurement (T1/Tot) 1.2 kV/cm induction field 2.0 kV/cm induction field The IBF decreases dramatically when the transfer field increases. RD51 miniweek, WG1, CERN, 14/06/2012, IBF studies with THGEMs Fulvio TESSAROTTO I top1 / I total (%)

21 RD51 miniweek, WG1, CERN, 14/06/2012, IBF studies with THGEMs Fulvio TESSAROTTO Courtesy of COMPASS CEA-Saclay colleagues: (many thanks to Damien Neyret) we could mount one THGEM on top of their Micromega Drift wires bulk μΩ THGEM Saclay

22 55 Fe source, G ~ IBF: Very promising preliminary results from hybrid detector: THGEM + Micromega RD51 miniweek, WG1, CERN, 14/06/2012, IBF studies with THGEMs Fulvio TESSAROTTO G ~ 10 6 UV light amplitude spectrum gas: Ar/CO2 70/30, source: 55Fe or UV LED (245 nm) r/o Cremat CR100 + spark protection Signal amplified (ORTEC) and read by MCA Electrode:driftTHGEM topTHGEM bottommeshanode charge:0 %4 %0%96%-100%

23 SUMMARY OF THGEM IBF STUDY   IBF reduction is of utmost importance for large gain, large rate THGEM – based PDs operation   Field optimization in standard geometry allows to go from 30% to 15%   Complex geometries (“COBRA” like) are very effective but compromise the basic simplicity, robustness, low cost characteristics   Adding a dedicated electrode for ion intercept provides IBF ~ 7% but adds engineering complications  Misaligned holes configurations (staggered holes or “FLOWER”) may reduce IBF by one order of magnitude  Very promising results from THGEM + Micromega structure : IBF ~ 4% RD51 miniweek, WG1, CERN, 14/06/2012, IBF studies with THGEMs Fulvio TESSAROTTO

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2025 SlidePlayer.com. Inc. All rights reserved.