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Belle
Riunione referees Belle2 11 Se0embre 2014
-‐ Introduzione
-‐ Update on R&D and upgrade ac@vi@es -‐ Future ac@vi@es
-‐ -‐ Richieste 2015
C. Cecchi for the ECL-‐IT group
11/09/2014 1
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Belle
11/09/2014 2
Introduc@on
-‐ This R&D has started to demonstrate the feasibility of using pure CsI crystals with APD readout for the BelleII experiment (could be adopted by other experiments). -‐ Why APD’s and no photopentodes (BelleII proposal)? mechanics, space, redundancy, cost -‐ At the last meeJng in May we have presented the progress made in this R&D studying different aspects of two APD’s: LAAPD from Hamamatsu and APD from Excelitas. -‐ The study has covered many fundamental points to eventually qualify such photodetectors in order to be used with pure CsI crystals:
-‐ gain of the APD’s for different bias voltages checking that a minimum difference between the applied voltage and the breakdown point was present -‐ sum up the signal of the 2(4) LAAPD’s (Excelitas) before the shaping to check that a good signal was present -‐ shaping of the signal to gain in the raJo S/N and to obtain a good value of the equivalent noise energy (fixed for our caloriemter at 1 MeV) -‐ check of the gain variaJon with the temperature with calibrated sensors
All this has showed good results compa@ble with our requirements
We have also shown that there is a possibility of readout the pure CsI crystals with two small photopentodes (1” instead of 2” preserving the redundancy)
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Belle
11/09/2014 3
Time (h)0 50 100 150 200 250 300 350 400 450
Ampl
itude
(A.U
.)
0.9
0.95
1
1.05
1.1
LAAPD vs Time
LAAPD 4932
LAAPD 4936
Time (h)0 200 400 600 800 1000 1200 1400 1600
Am
plitu
de (A
.U.)
0.7
0.8
0.9
1
1.1
1.2
LAAPD vs Time
LAAPD 4932
LAAPD 4936
R&D LAAPD: long term stability (NEW)
Stability within 1.4% before a drop we suppose caused by the umidity. Nitrogen finished during vacaJon in August!
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Belle
11/09/2014 4
ENE for APD’s: final results for the lab measurements
Our requirement is to have ENE< 1MeV
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Belle
11/09/2014 5
R&D ac@vi@es for CsI + APD: We have decided to use the LAAPD from Hamamatsu
as photodetectors for the final step: TEST BEAM BTF O0obre 2014
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Belle
11/09/2014 6
End of R&D CsI + APD’s: test beam
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Belle
11/09/2014 7
Matrix of 4x4 pure CsI crystals with LAAPD Hamamatsu photosensors.
Material is available and already tested.
To be fixed: temperature sensors have to be placed near APD’s, material has been ordered
Matrix will be assembled and tested with cosmic rays star@ng from end of September. Move to BTF end of October data analysis to be completed by end 2014
End of R&D pure CsI + APD: TEST BEAM
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Belle
11/09/2014 8
-‐ We presented the uSOP (Service Oriented Plaaorm for slow control) -‐ Designed as a possible general placorm for Belle2 slow-‐controls -‐ status of the hardware good: assembly of a protoJpe during the summer then test, debugging -‐ Status of the sodware good and well progressing
Summary of what you have seen about the control system (monitoring of volatges, temperatures…)
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BelleAnd then….
11/09/2014 9
Now we are confident that CsI + APD can make a good calorimeter for the BelleII experiment purposes……
-‐ SJll to be checked: radiaJon hardness of pure CsI crystals, but also of CsI(Tl) (actual ECL Belle) crystals because we want to know if all the ECL has to be replaced or only a part and eventually which part.
-‐ Rad hard of APD’s
-‐ ECL group gave us CsI(Tl) crystals from Belle to irradiate them and study their radiaJon hardness
Theta ID
First and mandatory is to know the level or radia@on present in the region of the detector that we are studying, unfortunately this is not really known at the moment!
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Belle
Op@cal characteriza@on of coupling materials Transmi0ance (long-‐trasv) and LY measurements of CsI
crystals
Dry box and Lumen spectrophotometer
R&D on wavelength shifers (CsI emission toward blue region) APD irradia@on (gamma, neutrons)
25m2 dark room with air condiJoning built for CMS-‐ECAL R&D
Dry box for LY meas.
10
R&D CALLIOPE: ac@vi@es for BelleII
11/09/2014
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Belle
11/09/2014 11
R&D ac@vi@es in Italy Test di qualifica di colle grassi ogci + irraggiamen@
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BelleOne of the most used opJcal coupling materials (scinJllator-‐photodetector) High Transmihance , sample thickness dependent Abrupt transmihance drop in the UV range (270-‐280 nm)
Measurements are made on BC630 applied on quartz substrate
(quartz light ahenuaJon is always subtracted) using Perkin-‐Elmer Lambda 950 spectrophotometer + integraJng sphere
BC630 opJcal grease
12
Before irradiaJon
BC630
Quartz
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Belle
13
Dose/Fluence
13.2 Gy
530 Gy
1500 Gy
1x1013 n/cm2
Gamma irradia2on
1 mm on quartz support
770 micron self-‐standing disk
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Belle
11/09/2014 14
Radia@on hardness study of CsI(Tl) at ENEA Casaccia
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Belle
11/09/2014 15
BelleII requirements and goal of the study
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Belle
11/09/2014 16
CsI(Tl) crystal measurements
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Belle
Transmihance spectra of CsI:Tl AM005 and AM006
17
afer irradia@on: • transmihance decreases in the whole range • no evidence of Tl absorpJon peaks (300-‐600 nm) • parJal recovery ader the end of irradiaJon
%T error: ± 2%
Crystals stored in dry air atmosphere
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BelleRadiaJon damage evaluaJon of Cs:Tl
18
RadiaJon Induced AbsorpJon Coefficent (μ)
used to quanJfy color center formaJon due to ionizing radiaJon
µ =1dln T0
T!
"#
$
%&
Gamma irradia@on tests:
Dose rate: 5 Gyair/h
Total absorbed dose: up to 88 Gy (Amcrys 005)
up to 142 Gy (Amcrys 006)
Irradia@on condi@ons: in Argon atm., at RT, keeping the crystals in the dark
430 nm
520 nm
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BelleCsI(Tl) Amcrys LY pre-‐post irradiaJon
• Two CsI(Tl) samples irradiated up to 142 Gy TID with gammas
• LY measured with 137Cs source, PMT+QDC, AC-‐coupling
htempEntries 10001Mean 959.2RMS 569
QDC0 500 1000 1500 2000 2500 3000 3500 4000
0
100
200
300
400
500
htempEntries 10001Mean 959.2RMS 569CH0
htempEntries 10001Mean 1129RMS 715.6
QDC0 500 1000 1500 2000 2500 3000 3500 4000
0
50
100
150
200
250
300
350
400
htempEntries 10001Mean 1129RMS 715.6CH0
Before irradiaJon
Solid: Am006 Dashed: Am005
Solid: Am006 Dashed: Am005
Ader irradiaJon
Time from irradiation (h)0 100 200 300 400 500 600 700
LY (a
.u.)
0
200
400
600
800
1000
CsI longitudinal LY (137Cs)
Black: Am006 Blue: Am005
Before irradiaJon
LY signal covered by fluorescence
Caveat: LY signal ader irradiaJon could be reduced by unpredicted long term fluorescence due to AC-‐coupling to FEE
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Belle
11/09/2014 20
Radia@on hardness study of APD’s at ENEA Casaccia
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Belle
11/09/2014 21
LAAPD gamma irradiaJon
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Belle
11/09/2014 22
LAAPD gamma irradiaJon: GAIN
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Belle
11/09/2014 23
LAAPD gamma irradiaJon: Dark Current
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Belle
11/09/2014 24
LAAPD gamma irradiaJon: Recovery of DC
A0en@on! Expected dose at BelleII: 13 Gy/year
New campaign next week at the same dose per day expected at the experiment. See if increasing of DC at this doses is immediately recovered. NEUTRONS to be done
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BelleExcelitas APD gamma and neutron irradiaJon
25
Two Excelitas APDs were irradiated with photons at Calliope: – Total Ionizing Dose 108 Gy – Gain measurements with increasing dose, temperature correcJon applied
No significant effect of TID on APD gain
APD gain vs. Vbias
The same samples were irradiated with fast (0.1-‐10 MeV) neutrons at Tapiro, up to a fluence of 1x1013 n/cm2 (10 years x5 of B2)
– One device was biased during irradiaJon – Secondary photons TID less than Calliope test
Excelitas APDs show a significant loss in Quantum Efficiency ader 1x1013 n/cm2 : • Main component is probably due to damage to
resin cover
• Slight difference could be due to biasing during irradiaJon (silicon oxides damage)
unbiased biased
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Belle
11/09/2014 26
Qualifica@on of pure CsI crystals from Optomaterials at ENEA Casaccia
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BellePure CsI Optomaterials: Light Yield
27
PMT
distance from PMT (mm)0 50 100 150 200 250 300 350
p.e.
/MeV
0
20
40
60
80
100
120
140
160
180
200
220
Optomaterials 1
Optomaterials 2
Amcrys AM02
CsI longitudinal LY (137Cs)
Longitudinal LY variaJon: Optomaterials < 5% Amcrys < 10%
Measured without wrapping and without opJcal grease
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BelleConclusions on irradiaJon test
28
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Belle
11/09/2014 29
R&D ac@vi@es Piani futuri a breve e medio termine
Irraggiamen@ Studio livelli radiazione
Simulazione de0agliata e performance ECL
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Belle
-‐ 50% del finanziamento per l’upgrade dell’intero calorimetro (Canada) non è stato approvato, richiesta nuova tra due anni -‐ Richieste da parte dei gruppi di Novosibirsk e Giapponesi sono in corso -‐ Un proposal dedicato all’upgrade di ECL FWD è in fase di scri0ura da u@lizzare come documento per le richieste di fondi alle agenzie finanziatrici
-‐ I NOSTRI PIANI LEGATI ALLE RICHIESTE DEL 2015 NON CAMBIANO!
-‐ Optomaterials e la qualifica della loro produzione di cristalli è di fondamentale importanza non solo per il calorimetro di BelleII.
-‐ Uno studio più approfondito per l’upgrade è assolutamente necessario, non è sufficiente quanto è stato fa0o per il TDR da me0ere nel proposal
11/09/2014 30
ECL FWD upgrade: futuro prossimo
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Belle
11/09/2014 31
a) From 0 to 8 b) From 1 to 8
a) 672 pure CsI + 480 CsI(Tl) b) 48 CsI(Tl) + 624 pure CsI + 480 CsI(Tl) c) 48(?) + 720 pure CsI + 384 CsI(Tl) (exclude 1st
layer from trigger and maintain same number of trigger cells)
c) From 1 to 9
Replacement of the rings: complete or par@al?
Theta ID
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Belle
11/09/2014 32
-‐ Studio dei livelli di radiazione nel FWD sono fondamentali per poter organizzare una corre0a campagna di irraggiamen@ alle dosi corre0e.
CsI: LY and longitudinal transmihance measurements ader irradiaJon CsI(Tl) Belle: characterizaJon ader irradiaJon and recovery of 3 crystals
by cosmic-‐rays set-‐up by T and LY measurements as reference
CsI & CsI(Tl): radiaJon damage and recovery by means of opJcal characterizaJon and LY measurements. AMCRYS + Optomaterials crystals will be compared
Neutron irradiaJon on APD’s and quantum efficiency test
ECL FWD upgrade: agvità 2015 (irraggiamen@ e test)
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Belle
11/09/2014 33
-‐ Studio dei livelli di radiazione -‐ simulazioni sono in corso con diverse @pologie di shielding -‐ non esistono simulazioni per la parte di radiazione durante l’iniezione della macchina
-‐ Una volta no@ i livelli di radiazione è necessario fare uno studio di quali ring sono a rischio danneggiamento studiare la risoluzione del calorimetro in funzione della variazione di Light Yield per ogni ring estrapolare il minimo numero di ring necessari per mantenere le performance del calorimetro richieste. -‐ Studio della risposta del rivelatore con even@ di fisica (ricostruzione pi zero e poi canali di decadimento importan@ per ECL) prima in funzione della variazione del LY con la radiazione e poi in funzione della sos@tuzione dei ring danneggia@ di CsI(Tl) con CsI puro.
-‐ sofware e tools tu0o da implementare in full sim, non esiste una fast sim in BelleII, s@amo me0endo su un gruppo di lavoro su questo argomento.
ECL FWD upgrade: 2015 (sofware and simula@on)
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Belle
11/09/2014 34
Richieste
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Belle AnJcipi 2015
11/09/2014 35
SJ avanzato 14Keuro (PG) + 7Keuro (NA) consumi costruzione apparaJ (56Keuro) non uJlizzaJ TOT = 77 Keuro
vorremmo tenerli per acquistare uno spehrofluorimetro per la qualifica dei cristalli + acquisto cristalli richiesJ per il 2015
Diventa di fondamentale importanza dopo il primo test di produzione di Optomaterials che ha avuto esito assolutamente posiJvo e quindi molto promehente.
Spehrofluorimetro 32Keuro + IVA = 38 Keuro (contributo da Roma1 DOT 3 Keuro) Cristalli Optomaterials 42 Keuro
TOT = 80 Keuro
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BACKUP SLIDES
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R&D ac@vi@es in Italy LAAPD
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R&D LAAPD: control of the gain
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R&D LAAPD: signal afer shaping for the two APD’s and for the sum
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R&D LAAPD: shaper sofware
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R&D ac@vi@es in Italy LAAPD temperature stability studies
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R&D LAAPD: calibrazione del sensore di temperatura
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R&D LAAPD: dipendenza del guadagno dalla temperatura
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R&D LAAPD: noise equivalente in funzione della temperatura
C)°Temperature (14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35
ENE
(MeV
)
0
0.5
1
1.5
2
2.5
3 LAAPD1LAAPD2LAAPD Sum
ENE (SHP) - Temperature Dependency
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R&D ac@vi@es in Italy APD excelitas
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R&D excelitas: ampiezza degli APD e noise equivalente per due APD’s per cristallo
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R&D excelitas: test con 4 APD’s per cristallo
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R&D excelitas: ampiezza APD e noise equivalente per double sampling e dopo lo shaping lineare
Double sampling CSP level
Linear shaping
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R&D ac@vi@es in Italy 1” photopentodes 2/cristallo
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No Lead absorber
With lead absorber
R&D PP 2”: comparison with and wo absorber
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R&D PP 1”: raw energy, channel equaliza@on, S/N ra@o
Correla@on of the two channels afer correc@on
Signal/noise on ch1 = 49. Assuming a that muon delivers 30 MeV noise level is about 650 KeV
Signal to noise ra@o on ch2 = 76 under the same assump@on We es@ate a noise level of about 400 KeV
No shaping has ever been applied to This analysis
Raw energy
S/N
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R&D PP 1”: S/N ra@o channels combina@on
Signal to noise ra@o is 78.
We do not gain much from channels combina@on.
It is maybe due to the huge difference between the 2 photopentodes
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R&D ac@vi@es in Italy uSOP (Service Oriented Plaaorm for slow control)
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• Cortex A8 uP @ 1GHz • Linux OS (Debian) • 2 GB Flash • 512 MB RAM • Designed as a
possible general placorm for Belle2 slow-‐controls
• Designed for easy manteinability
• 3U Eurocard form factor
• Derived-‐from and compaJble-‐with BeagleBoneBlack open source project
55
uSOP: REV B
USB (device)
Ethernet
USB (host) uSD
LEDs
11/09/2014
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• Design of first version (Rev. B) completed • 5 PCBs produced and received • WaiJng for components: – Two ICs in back-‐order: 16 weeks delivery Jme from RS, Digi-‐Key, Mouser, …
– Looking for alternaJve suppliers (brokers, …) • Assembly completed possibly by end of June (condiJoned by component availability)
• Then tests, debug, troubleshooJng, … 56
uSOP: Project Status of the HW
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• Linux porJng is available open-‐source (Debian) • Sodware for JTAG programming of Xilinx FPGA completed and tested
successfully • Sodware for ADC read-‐out via I2C in progress • Sodware for IPMI(*)-‐like features in progress
• Hot spots: – IntegraJon in EPICS – DefiniJon of high-‐level sodware architecture :
• push vs. pull • publish/subscribe • synch. vs. asynch • Network usage and role • web or stand-‐alone GUI
*Intelligent Placorm Management Interface
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uSOP: Project Status of the SW
11/09/2014
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• In this revision, uSOP does not include peripherals. Instead, it supports protocols for remote data acquisiJon via field busses (I2C, SPI, JTAG, …)
• For temperature monitoring in Belle2, LTC2499 seems to be a perfect candidate: – 24-‐bit, ΣΔ architecture – 50/60 Hz line noise filter – 7.5 Hz sampling Rate – Direct Sensor DigiJzer – Direct Temperature Measurement – I2C interface
• uSOP can be directly interfaced with the DC1012A-‐A board available from Linear Tecnology for performance evaluaJon
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uSOP: Temperature monitoring
11/09/2014