1. Hybrid MPGD based photon detector, R&D update.
RD51 WG1
SL on behalf of Trieste THGEM group
Detector performance in CH4 rich mixtures.
Maximum gain stability region with 55Fe source.
Operations in pure CH4.
Large prototype performance

2. Hybrid detector FIRST SMALL SIZE PROTOTYPE UV LED Source 5 mm
55Fe X–Ray Source.
Drift wires
THGEM
Micro Mesh
Anode
UV LED Source
Kapton/Fused Silica Window
Bulk Micromegas: courtesy of Saclay COMPASS colleagues
FIRST SMALL SIZE
PROTOTYPE
15 mm
5 mm
MICROMEGAS stage
128 mm bulk
Preliminary test
Ar:CO2 70:30.
CAEN N471A High Voltage PSU
Cremat CR – 110/110
Canberra Spectroscopy amplifier
Amptek MCA 8000A

3. Factor 10 for 250V of ∆V. Factor 10 for 100V of VMesh
Effective GAIN vs. Transfer Field
GAIN vs. ∆V and VMesh
THGEM
Transfer field is not critical. Almost no effect above 0.8 kV/cm
Factor 10 for 250V of ∆V.
Factor 10 for 100V of VMesh

4. Full scan with different CH4 %
Maximum GAIN ~ 2.4 X 105
S Levorato. Rd51 Collaboration Meeting, CERN Feb-2014

5. Full scan with different CH4 %
Plateau represents the unitary THGEM gain, corresponding MM GAIN ~ 500.
S Levorato. Rd51 Collaboration Meeting, CERN Feb-2014

6. Full scan with different CH4 %
55Fe source (~220 primary)
The maximum stable gain is
typically between 2·105 and 3·105
Total charge > 5·107,
close to the Raether limit
S Levorato. Rd51 Collaboration Meeting, CERN Feb-2014

7. Ar:CH4 10:90, (Fe55 X-Ray Source )
S Levorato. Rd51 Collaboration Meeting, CERN Feb-2014
Factor 10 for 100V of VMesh

8. Exploring the stability region (∆Vand Vmesh)
THGEM |
V_MESH
>
Volts
DEL_V [V]
610
620
630
640
650
660
670
680
1760
17117
34179
42477
52879
45000
60175
74334
91021
1780
44581
52631
62043
57141
88493
108720
1800
54365
54107
61186
74333
86470
108214
135015
1820
59318
66242
92507
90344
113271
130969
171929
1840
74798
77437
94055
117822
160804
1860
54613
89306
103663
117306
139060
169906
1880
69783
110742
147151
170412
1900
83436
136026
154230
180525
222496
1920
167378
189157
239075
Ar:CH4 30:70.
Effective GAIN are in 103
The previous ∆V scan was done in this region
Numbers are in black are for fully stable region
Numbers are in red are regions where we have experienced trips.
S Levorato. Rd51 Collaboration Meeting, CERN Feb-2014

9. Exploring a larger region (∆V and Vmesh)
THGEM |
V_MESH
>
Volts
DEL_V [V]
600
610
620
630
640
650
660
670
680
690
700
710
1720
95.6
1740
Effective
GAIN are
in 10^3 88
114.3
1760
86.5
102.8
1780
80.9
105.7
137.5
1800 90
101.1
130.5
1820 91
107.2
137
160.8
1840
83.9
113.3
133.5
163.3
1860
87.1
105.2
134
166.9
1880
89.9
91.5
106.7
131.5
174.5
1900
72.8
100.1
118.8
166.4
1920
69.8
128.4
144.1
168.9
176.5
1940
115.8
164.3
187.1
214.9
1960
151.2
Numbers are in black are for fully stable region
Numbers are in red are regions where we have experienced trips.
S Levorato. Rd51 Collaboration Meeting, CERN Feb-2014

10. The calculated GAIN sharing between THGEM and MM
S Levorato. Rd51 Collaboration Meeting, CERN Feb-2014

11. Towards large size prototypes
S Levorato. Rd51 Collaboration Meeting, CERN Feb-2014

12. The 300 X 300 mm2 Micro Mesh setup
Drift Wires
13 mm
Micro Mesh (prepared by Rui in CERN by BULK technology)
Anode
S Levorato. Rd51 Collaboration Meeting, CERN Feb-2014

13. The Hybrid scheme MicroMegas detector and THGEM, medium size preparation
Medium size prototype
MESH size 300x300 mm2
THGEM
strips using a resistive ink of 100kW/
Confirm the same performances on
Medium size prototype
Problematic:
Anode planarity <->Mesh to anode distance
Bulk MicroMegas technology
S Levorato. Rd51 Collaboration Meeting, CERN Feb-2014

14. Setup Details
123456
A B C D E F
The 300 X 300 mm2 Anode has been divided in 36 sectors.
Each Sectors contains 16 pads.
We connect one sector to CREMAT, all others remain connected to 50Ω terminators.
We use one HV channel to Power six drift Sectors with Splitters
We use CAEN N471A HV PS.
Normal readout chain as mentioned before for 30 X 30 mm2 Prototype.
S Levorato. Rd51 Collaboration Meeting, CERN Feb-2014

15. The Hybrid scheme MicroMegas detector and THGEM, medium size preparation
Pure MicroMegas detector
Same readout scheme as before Ar/CO
strips using a resistive ink of 100kW/
S Levorato. Rd51 Collaboration Meeting, CERN Feb-2014

16. Choosing THGEM(300 X 300 mm2) for the Hybrid
We tried to chose a 300 X 300mm2 THGEM for combining with the Mesh to prepare our 300 X 300 mm2 prototype.
We started from PCB Selection 2% thickness variation
Paschen Method to evaluate the quality
Applied our polishing procedure
Paschen Method to evaluate the procedure effect 1 2 3 4 5 6
S Levorato. Rd51 Collaboration Meeting, CERN Feb-2014

17. Choosing THGEM(300 X 300 mm2) for the Hybrid
Then we test them in Single to obtain Gain Uniformity.
#72
Date
Sec 1
Sec 2
Sec 3
Sec 4
Sec 5
Sec 6
Before treatment 57 59 58 56 60
After treatment 92 97
100
101
102 90
#73
Date
Sec 1
Sec 2
Sec 3
Sec 4
Sec 5
Sec 6
Before treatment 62 63 64
After treatment 95 92
100
102 98 97
#74
Date
Sec 1
Sec 2
Sec 3
Sec 4
Sec 5
Sec 6
Before treatment 60 56 55 58 61 52
After Treatment 84 88 77 75 90 92
S Levorato. Rd51 Collaboration Meeting, CERN Feb-2014
N.B. All the values are in %

18. The Hybrid scheme MicroMegas detector and THGEM, medium size preparation
THGEM 300x300 mm2
Segmented into 6 independent sectors
Pure THGEM Same readout scheme as before Ar/CO
Raw PCB material
after selection
For thickness uniformity
Units in microns
Detector Gain at the same DV for all the sectors
1450 V
strips using a resistive ink of 100kW/
S Levorato. Rd51 Collaboration Meeting, CERN Feb-2014

19. The full hybrid test
All the THGEM Bottom sectors together with one HV channel.
Drift Sectors together with another HV channel.
We used resistive coupling for all THGEM top sectors separately.
For all channels we use CAEN N471A HV PS.
S Levorato. Rd51 Collaboration Meeting, CERN Feb-2014

20. Result
S Levorato. Rd51 Collaboration Meeting, CERN Feb-2014

21. Result
S Levorato. Rd51 Collaboration Meeting, CERN Feb-2014

22. Very promising result from the “hybrid architecture” (medium size)
Can be operated in pure CH4 mixtures without performance loss ( higher V)
Mesh (alone) gain uniformity good!
THGEM pre-selection procedure and polishing process confirm their validity
Satisfactory result from the THGEM combined to Mmegas!
Next steps: enlarge the size of the B-MMegas 300x600
FE electronic protection under study ? A la resistive anode ?
Goal: Have a detector 300x600 ready for the next TBeam (Sep-Oct 2014)
THANK YOU
S Levorato. Rd51 Collaboration Meeting, CERN Feb-2014

23. Setup for simultaneous use of UV LED and 55Fe source
The measured gain is the same for the same conditions while using UVLED and 55Fe sources simultaneously
S Levorato. Rd51 Collaboration Meeting, CERN Feb-2014

24. UV LED and 55Fe provide compatible results
S Levorato. Rd51 Collaboration Meeting, CERN Feb-2014

25. Some calculation regarding Calculating the Mesh and THGEM gain separately
We know the formula for calculating Gain of a Gaseous Detector is given by:
𝐺 𝑑𝑒𝑡 = 𝐴𝑒 𝛼 ∆𝑉− 𝑉 𝑐 / 𝑉 10
Where A and 𝛼 are the constants.
∆𝑉 is the voltage difference across the detector electrodes.
𝑉 𝑐 is the Critical Voltage at which it has a gain of 1.
And 𝑉 10 is the voltage required to increase the gain by factor 10.
For our case we find out that for THGEM it is 𝑉 𝑐 =1220𝑉, 𝑉 10 =108𝑉 and for Micromegas it is 𝑉 𝑐 =362𝑉, 𝑉 10 =50.4𝑉 for the gas mixture Ar:CH4 30:70
And we calculate the gain for each box for the previous plot ignoring 𝐴 𝑎𝑛𝑑 𝛼, because the correction is negligible .
We marked the boxes which are the nearest to the last stable gain achieved.
Also the boxes marked in red are the gains which are completely unstable.
S Levorato. Rd51 Collaboration Meeting, CERN Feb-2014

26. Gas mixture Ar:CH4 30:70. THGEM | V_MESH > Volts Effective
gain X 10 ^3
DEL_V [V]
600
610
620
630
640
650
660
670
680
690
700
710
1720 12 14 17 21 25 31 38 46 56 69 84
102
1740 37 68 83
101
123
1760 20 30 45 55 67 82
100
121
148
1780 24 36 44 54 66 81 98
120
146
178
1800 29 53 65 79 97
118
144
176
214
1820 35 43 64 78 96
117
142
173
211
258
1840 52 63 77 94
115
140
171
209
255
310
1860 42 51 76 93
114
138
169
206
251
306
374
1880 62 75 92
112
137
167
203
248
302
369
449
1900 61 74 91
111
135
164
201
245
298
364
444
541
1920 73 90
109
133
162
198
241
294
359
438
534
651
1940 88
108
131
160
195
238
291
354
432
527
642
783
1960
106
130
158
193
235
287
350
426
520
634
773
943
1980
128
156
190
232
283
345
421
513
626
763
930
1135
V_MESH
DEL_V
G_THGEM
G_MM
G_MM/G_TH
G_TOT
G_Measured /1000
G_Calc/G_Meas *100
G_TH/G_MM
G_Measured
600
1940
86.5
86500
610
115.8
115800
620
164.3
164300
630
187.1
187100
640
1920
168.9
168900
650
1900
166.4
166400
660
1860
134
134000
670
1840
140344
133.5
133500
680
1820
137
137000
690
1800
130
130000
700
1760
102.8
102800
710
1740
114.31
114310
S Levorato. Rd51 Collaboration Meeting, CERN Feb-2014