Enrique Martínez-González Instituto de Física de Cantabria (CSIC-UC)
Iván Vila Álvarez Instituto de Física de Cantabria (CSIC-UC )
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Transcript of Iván Vila Álvarez Instituto de Física de Cantabria (CSIC-UC )
Overview on New Technologies in Silicon Detectors20th International Workshop on Vertex DetectorsJune 20th Rust, Austria
Iván Vila Álvarez
Instituto de Física de Cantabria (CSIC-UC)
Scope and Caveat— Focus on technologies proposed for the new generation
of HEP pixel/tracker systems.— Too broad topic for a comprehensive & detailed report.— Even current hot topics, like SiPM, outside the talk’s
scope.— Detailed reports on dedicated talks (see agenda):
sensors material and technologies, FEE-sensor interconnection, low mass supports, cooling, monitoring, local triggering, fast r/o links, industrialization, etc.
— Thank you to the too long list of people from which I grab all the nice pictures and plots.
2I.Vila, [email protected] - VERTEX2011, RUST
June 20th
Outline— R&D Targets and trends.— New (evolved) sensor concepts: monolithic, semi-
monolithic , hybrid and approaches.— New hybridization: SoI & 3D-IC— Module and detector system engineering.
_ Power distribution systems._ Ultra light mechanics_ Structual & environmental monitoring.
— Summary
I.Vila, [email protected] - VERTEX2011, RUST June 20th 3
The colliding Future ?— Bunch of projected EPP experiments driven the
mainstream R&D lines.
4I.Vila, [email protected] - VERTEX2011, RUST
June 20th
HL-LHC
— Low mass, high precision vs. Rad. Resistance High granularity…. not quite app. beyond TRK/VTX.
STAR
R&D Trends
Sensor Technologies
Radiation
Resistance
Vertical
Electrode
s (3D)
N-in-p
New materials: MCz, Diamond, GaAs
.
High Resolutio
n/ low mass
DEPFET
CMOS
Smalll
pitch,
thinned
Hybrids
FPCCD,
CID
Sensor/ROC
integration
Hybrid
Single
stack
(flip-chip)
SOI
Multiple stacks
(3D-IC
interconnections)
Monolithic
CMOS
Module Engineering
ULTRALIGHT
MECHANICS
Self-supportin
g sensors
(DEPFET)
New materials (PLUME, SiC)
COOLING
CO2
AIR BLOWING
POWERING
SERIAL
DC-DC EMI
MONITORING
FOS- SENSORS
DATA LINK
TRANSCIVER
TRANSMISION LINE
5I.Vila, [email protected] - VERTEX2011, RUST
June 20th
Back to the future: Evolved hybrids— During LHC’s LS1 shutdown a forth
extra layer to be installed (IBL) (R ~ 33mm)
— Ionizing dose > 250 MRads— NIEL dose: 5x1015 neqv cm-2
— Two (Three) competing hybrid technologies
6I.Vila, [email protected] - VERTEX2011, RUST
June 20th
CiS CNMFBK
3D IBL Qualification Devices (FE-I4)
• Sensor produced at CNM• UBM and flip-chip at IZM
(Germany)• Mounted in Bonn and Genova
7I.Vila, [email protected] - VERTEX2011, RUST
June 20th
5 x 1015 nequiv cm-2
20 V 120 V
3D IBL Qualification Devices (FE-I4)— Good threshold and noise uniformity and CCE— Irradiated 3D-FE-I4 devices currently at SPS
test beam.
8I.Vila, [email protected] - VERTEX2011, RUST
June 20th
9I.Vila, [email protected] - VERTEX2011, RUST June 20th
3D sensors for LHCb’s VELO upgrade
— Other advantages: faster, reduced charge sharing to neighboring pixels, slim active edges.
— Drawbacks: inefficient volume due to column electrodes, much complex processing.
— 3D bump bonded to Medipix2 and TimePix ROC.
Single pixel efficiency120 GeV pions normal incidence 2011 JINST 6 P05002
3D sensors vs. Planar
Single pixel scan with microfocus (~5um) monocromatic X ray source.
10I.Vila, [email protected] - VERTEX2011, RUST
June 20th
ratio of multiple hits/ single hit distribution in the single pixel area.
3D
PLANAR
Semi-monolithic sensors: DEPFET— Implanted transistor on a fully depleted bulk.— Integration of the first amplification stage.— Selected solution for Belle II vertex & proposal for
ILD vertex.
11I.Vila, [email protected] - VERTEX2011, RUST
June 20th
Semi-monolithic sensors: DEPFET— Fully depleted sensitive volume (large signals)
_ r/o cap. independent of sensor thickness (reduce noise)— Internal amplification
_ charge-to-current conversion_ Large signal, even for thin devices._ Further signal amp. and processing outside the active
area (no need for bump bonded atop electronics).— Charge collection in "off" state.
_ r/o on demand (potentially low power device)_ only few rows active low power consumption_ Frame based pixel matrix R/O, rolling shutter mode
12I.Vila, [email protected] - VERTEX2011, RUST
June 20th
Monolithic pixels: MAPS for STAR— Fully based on industrial CMOS technology— On each pixel a CMOS low noise amplifier.— n-well/p-epi diode incomplete depletion— Charge collection by diffusion (small signal)— Thinning (50um) standard procedure.
15I.Vila, [email protected] - VERTEX2011, RUST
June 20th
MAPS: Tackling two main limitations
— CMOS industry provides a highly resistive epitaxial layer Increase depletion deep better SNR and radiation resistivity.
— MIMOSA 26 (EUDET’s telescope)
16I.Vila, [email protected] - VERTEX2011, RUST
June 20th
MAPS future trends.
— MAPS pixels in Standard CMOS HV technology
17I.Vila, [email protected] - VERTEX2011, RUST
June 20th
Monolithic “hybrid” sensors: SOI
— Full CMOS circuitry connected to a highly resistive and fully depleted substrate through silicon vias.
— CMOS device layer and high resistive substrate isolated by a buried oxide layer (BOX)
18I.Vila, [email protected] - VERTEX2011, RUST
June 20th
MONOLITHIC HYBRID DEVICES: 3D-IC— Ingredients: Thin dyes (TIERS) + high density
interconnects + vias.
19I.Vila, [email protected] - VERTEX2011, RUST
June 20th
Ziptronix
Typically 2 mm – 30 mm pitch0.5 mm potential
height
diameter
Height/diameter ~ 10:1
No pixelated 2D sensors: microstrips with resistive electrodes
— Charge division used in wire chambers to determine the coordinate along the sensing wire.
— Same concept with conventional microstrips with slightly resistive electrodes
— Better than 30um in long. coocrdinate
tt
t1t2
V
Particle
P4
S1
S2
Ampl1 Ampl2
20
2D strip sensors: radiactive source & 120 SPS Test beam.
21
WRAPPING UP— More optimized (thinned, low mass reduced power
consumption) hybrid pixel still rule the hadronic realm.
— New generation of precision experiments will use the next sensor technologies: CMOS; DEPFET
— In medium/ large time scale, SOI and ·3D-IC may become a mainstream industry technology (impact on HEP?)
— Apologies, many technologies –in some cases perfectly suited for dedicate experiment- left aside: Diamond, FPCCD, CiD, …
22I.Vila, [email protected] - VERTEX2011, RUST
June 20th
SYSTEM-WISE R&D:POWERING
— Motivations: _ LHC detectors upgrade: more granularity more power
BUT same cables for power distribution and space constrains.
_ e+e- experiments (ILC, SKEK): ultralight vtx/trackers can not afford bulky cooling systems pulsed powering
_ Two strategies: serial powering vs. local DC-DC converters.
_ many issues to be addressed
23I.Vila, [email protected] - VERTEX2011, RUST
June 20th
LOW MASS MECHANICS: self-supporting sensors
24I.Vila, [email protected] - VERTEX2011, RUST
June 20th
Mechanics: new materials— PLUME Collaboration: SiC Foam
25I.Vila, [email protected] - VERTEX2011, RUST
June 20th
Fiber Optical Sensors for Structural &Environmental Monitoring
26I.Vila, [email protected] - VERTEX2011, RUST
June 20th
Fiber Optical Sensors for Structural &Environmental Monitoring
27I.Vila, [email protected] - VERTEX2011, RUST
June 20th
— Application case: relative position monitoring of PXD and SVD Belle-II pixel sub-systems.
— Extremely radiation rad technologyFluence 3x1015 pcm-2
Ion. dose 15 MGy !! zero degradation
Irradiation
SUMMARY and…
— Semiconductor based detectors are becoming more and more ubiquitous approaching the all-silicon detector concept.
— Some of the here presented battle fronts aim to still extend their reach further.
— The high precision and radiation resistance frontiers are approaching each other. Do hybrid and monolithic sensors converge on SOI or 3D-IC devices ?
28I.Vila, [email protected] - VERTEX2011, RUST
June 20th
… a final remark
29I.Vila, [email protected] - VERTEX2011, RUST
June 20th
1. I. Thou shalt minimize the cost2. II. Thou shalt stick to the budget limits.
3.THANK YOU !