CIEMAT
ALMERÍA
MADRID
SORIA
NAVARRA (Mock·up)
CIEMAT- El Bierzo
CIEMAT- Extremadura
Puerto Información Científica Barcelona
Public Research Institution Public Research Institution Ministry of Science and InnovationMinistry of Science and Innovation
CIEMATCIEMATEnergy • Renewable Energies
• Nuclear Fusion• Combustion
Technology • Materials• Chemistry• Comm. and Inf. Tech• Infrastructures• Scientific Instrument.
Environment • Radiological• Conventional• Long-term storage
• National Laboratory for Nuclear Fusion
LNF
• Particle Physics• Superconductivity• Cellular and Molecular Biology
Basic Research
• Planning and prospective• Technology Transfer• All other horizontal services • Strategic projects (new centers)
General Secretariat
PIMIC • Refurbishment of old facilities
Personnel:
Budget
0
200
400
600
800
1000
1200
1400
1600
2004 2005 2006
Dirección General Secretaría General
Energía Medio Ambiente
Investigación Básica Laboratorio Nacional de Fusión
Proyectos Estratégicos Tecnología
Seguridad y PICMIC Administración y RRHH
TOTAL
2007: 125 M€
2007: 1,500
60 M€
80 M€
100 M€
120 M€
140 M€
Division of Scientific Instrumentation Technology
Electronics Medical Applications
•AMS
•FAST
•DES
•CMS
• ITACA • The CSTD project• The BrainPET project• Monte Carlo simulation for radiology and neutron dosimetry
Accelerators
Division of Scientific Instrumentation Technology
• Development of electronics within R&D projects, in collaboration with other teams at CIEMAT (large contribution to HEP projects)
• Medical Applications. R&D line on non conventional radiation detectors for medical applications. Imaging reconstruction and simulation.
• Accelerators
Activities:
•FEBEX
•ACE2
•ECT
•SEPTA
• Magnets for particle accelerators, kinetic energy storage and superconductivity technology research.
• A special program launched to extend these activities to other fields of accelerators
Running Projects. ACE2
Control system for a kinetic energy accumulator.
Fossil Fuels
Development of a electrocapacitance tomography system
89
1
5
6
710
11
12
13
14
1516
2
3
4
Electrodes (detail)
Radial Guard
Electrode belt
Running Projects. ACT
Guard
Radiator3 cm Aerogel (n 1.05)
MirrorMultilayer metallic layer
deposited on Carbon Fiber Reinforced Composite
Light Detection680 PMT (Hamamatsu7600-
00-M16)• 4 x 4 mm2 /pixel
Goals:
Measurement of the charge particle velocity ( ) () / 10-3 @ = 1 (p+)
Measurement of the mass:
resolution 1%
Measurement of the ion charge up to
Z < 25
Discrimination e+/e- up to 10GeV Measurement of the relative abundance
of light atoms H/H2/H3, He3/He4, Be10/Be9
•Size: 50 cm height
160 cm diam•Weight < 200 Kg•Power < 100 Watt
AMS. The Rich detector
RICH Electronics
LV - PP
RPD
R-Crate:• 2 Units• 11 modules/R-Crate
6 RDR2 HV modules2 Control modules1 Link module with the main DAQ
RPD:• 2 Units• 6 DC-DC/RPD converters• Active redundancy
J-Crate
PMT
Divisor
Pre- AmpADC board
HV Distribution
Input Signal
Capton connectort
Front End Electronics (ISN)• 5 boards (3 x 3 cm2)
–HV divisor 80M–Pre-Amplification –HV distribution–Signal Distributor–ADC (AD7476BR)
x 680 units
Dark Energy Survey (DES)
room for electronics
4 -> 6-slot backplanes
3556 mm
CameraFilters
Optical Lenses 2.2 deg. FOV
ScrollShutter
1575 mm
CTIO (Chile)
Partners • Fermilab• University of Illinois • The Lawrence Berkeley National Laboratory • NOAO -- The National Optical Astronomy Observatory • NCSA -- The National Center for Supercomputer Applications • CIEMAT• The Barcelona Consortium IEEC/CSIC - IFAE • The U.K. Consortium University London, Cambridge, Edinburgh, Portsmouth
Technical goal500 MegaPixels Camera
72 CCDs CIEMAT:
Clock&Bias boardMaster Control board
CMS. Muon chambers
CIEMAT developed a layer of the CMS muon drift chambers. CIEMAT developed a layer of the CMS muon drift chambers.
CMS. Electronics
ROB
Minicrate
Muon drift tube chamber
CIEMAT coordinates the overall electronics of the CMS muon drift chambers since 1995. Elaborates the design and construction of the read-out electronics (ROB, ROS) and its mechanics.
CIEMAT coordinates the overall electronics of the CMS muon drift chambers since 1995. Elaborates the design and construction of the read-out electronics (ROB, ROS) and its mechanics.
ROS
CMS. The LINK alignment system
Measure elements
• Laser sources
• Sensors
• High precision mechanical supports• Periscopes• Optics• Control and DAS
• Optic (2D CMOS), CCD• Position (proximity sensors: potentiometric and optical)• Tilt • Temperature (PT 100)
• Must establish relative coordinates between the inner detector at CMS (Tracker) and the muon detectors in the Barrel and End Cap • Detectors are inter-connected via laser beams. Beams define six - planes, one each 60º. Detector positions are related through these planes
•The Superconductivity group started in 1989 and their activities include magnets for particle accelerators, kinetic energy storage, and superconductivity technology research.
• In addition Ciemat has launched a special program to extend these activities to other fields of accelerator
•A group of people is training at CERN who are contributing to LHC commissioning.
Accelerators