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Part-V Micropattern gaseous detectors

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Presentation on theme: "Part-V Micropattern gaseous detectors"— Presentation transcript:

1 Part-V Micropattern gaseous detectors

2 In the last decade revolutionary developments happened in the filed of gaseous detectors of photons and particles. Parallel plate-type and wire-type detectors which dominated in high energy and astrophysics experiments last century are now being replaced by Micropattern Gaseous Detectors (MPGDs)

3 A. Oed invention (A. Oed, NIM A263,1988, 351)
MWPC- technicians skills Gas gain A= Pos. resol. 0.03—1mm 2mm Drift region Gas Avalanche MSGC- photolithography Gain A= 104 Pos. resol mm Glass substrate

4 Side and top view of microstrip detectors

5 There were invented many various designs ~ 26
A. Oed work triggered imagination of other investigators There were invented many various designs ~ 26 Nowadays there exists quiet a lot of different designs of micro-pattern detectors; one can roughly divide them in four categories: 1) strip-type, 2) dot-type, 3) hole-type 4) parallel-plate type. The detailed description of these detectors one can fine in several review articles, see for example (T. Francke, et al.,arXiv:physics/ , 2004, F. Sauli, NIM A477, 2002, 1)

6 The main advantage of MPGDs is that they are manufactured by means of microelectronics technology, which offers high granularity and consequently an excellent position resolution. However, the fine structure of their electrodes and the small gap between them make MPGDs electrically “weak.” In fact, their maximum achievable gain is usually not very high and they can be easily destroyed by sparks, which may occur during their operation.

7 Photolitography and microelectronics

8 1)Hole-type 2)Paralell-plate type (with mesh or unperforrated cathode)
The main effort were focus on enlarging the maximum achievable gain. However, it was soon found that the total charge in avalanche is limited to An0~ electrons* This limit cooled down the activity of inventors and caused some “stagnation” Nowadays only two types of micropattern gaseous detectors survived “Darvin” natural selection: 1)Hole-type 2)Paralell-plate type (with mesh or unperforrated cathode) *Y. Ivanchenkov et al., NIM A422,1999,300 Charles Darwin

9 1)Hole-type gas micropattern detectors

10 Hole-type detectors also have a long history…
They were invented and developed by Italian physicists Drift electrode Glass capillary (del Guerra eta l) GEM F. Sauli NIM477, 2002,1 Field lines focusing effect Gas MCP “Optimized” GEM or TGEM L.Periale et al., NIM A478,2002,377

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12

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14 Cascaded GEMs

15 2)Paralell-plate type gas micropattern detectors

16 MICROMEGAS

17 MICro MEsh GAseous Structure (MICROMEGAS)
Micromesh Gaseous Chamber: a micromesh supported by mm insulating pillars Multiplication (up to 105 or more) takes place between the anode and the mesh and the charge is collected on the anode (one stage) Y. Giomataris et al, NIM A376(1996)29

18 Merge in GEM and MICROMEGAS designs: to minimize mesh bending effect
more and more pillars are added… -V The drawback of the MICROMEGAS design: due to the electrostatic force the mesh can be bended between pillars -V Thus, the difference between the GEM and MICROMEGAS slowly is vanished…

19 Integrated Electronics: Pixel Readout of Micro-Pattern Gas Detectors
3D Gaseous Pixel Detector  2D (CMOS pixel chip readout) x 1D (drift time) Through POST-PROCESSING INTEGRATE MICROMEGAS directly on top of CMOS chip (covered with protection layer) (e.g. Si3N4) (e.g. SU8) “InGrid” Concept: mm Protection Layer (few mm) M. Chefdeville et al, NIMA556(2006) 490

20 …this drawback was removed in:
parallel-plate type micropattern detectors with rigid electrodes having strips Features: no spacers, Gap mm, very good timing resolution <0.1ns, position resolution~ 30μm XCounte AB, Francke et al.,NIM , A471, 2001, 85

21 A magnified photograph of the R-MSGC showing the left side of its active area near its edge. Cu anode strips, resistive cathode strips and the readout strips manufactured in the inner layer of the PCB (under the anode and the cathode strip) are clearly seen as well as the Coverlay layer.

22 Large area Spark protection 3) High granularity pixelized readout
Latest developments in these two main types of detectors (hole-type and parallel-plate type): Large area Spark protection 3) High granularity pixelized readout

23 1)Large area GEM MICROMEGAS …both detectors approaching 1m2 size

24 Advantages: manufactured by microelectronic technology, have excellent position resolution

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