Download Potential Spanish contributions to the ASTROGAM Si tracker

Potential Spanish contributions to the
ASTROGAM Si tracker
Margarita Hernanz
José L. Gálvez, Laura Alvarez, Biel Artigues
Institute of Space Sciences (CSIC-IEEC)
on behalf of a larger collaboration with
IMB (CNM-CSIC)
Bellaterra (Barcelona), Spain
M. Hernanz -­‐ ASTROGAM Workshop – Frasca:, 9-­‐10/12/2014 Development of CdTe pixel detectors for hard X-­‐/so9 gamma-­‐ray imaging
1st step: development of CdTe pixel detectors
for hard X/soft gamma-ray imaging - with NUCAM ASIC
area: 12.15 x 12.15 mm²
thickness: 2mm
pixel size: 1 x 1 mm²
11x11 = 121 pixels
NUCAM ASIC:
RAL (UK)
128 channel low noise
front-end ASIC
P. Seller et al., IEEE 2006
M. Hernanz -­‐ ASTROGAM Workshop – Frasca:, 9-­‐10/12/2014 CdTe: Acrorad
2009
Development of CdTe pixel detectors for hard X-­‐/so9 gamma-­‐ray imaging
Detector fanin - Pitch adapter
board - used to attach the
pixelated detector to the
readout chip: designed &
manufactured in our project
Stud Bump Bonding technology
Attachment of the detector to the fanin
M. Hernanz -­‐ ASTROGAM Workshop – Frasca:, 9-­‐10/12/2014 Development of CdTe pixel detectors for hard X-­‐/so9 gamma-­‐ray imaging. First measurements (2009-2010)
Highly Uniform; 4% of
121 pixels had some
problems.
9 central pixels shown
M. Hernanz -­‐ ASTROGAM Workshop – Frasca:, 9-­‐10/12/2014 Development of CdTe pixel detectors for hard X-­‐/so9 gamma-­‐ray imaging
2nd step: a) new ASIC to allow characterization of a
stack of 2 CdTe layers (measurement of coincidences)
New detector fanin to attach the pixelated
detector to the VATA readout ASIC: designed &
manufactured in our project
View of different fanins within
a 4-inch Sapphire wafer
New detector daughter board
assembled to the cold finger
New FEE design
M. Hernanz -­‐ ASTROGAM Workshop – Frasca:, 9-­‐10/12/2014 Development of CdTe pixel detectors for hard X-­‐/so9 gamma-­‐ray imaging
2nd step: b) mechanical set-up for a stack of 2 CdTe layers:
PPF and PTF configurations
HV Bias
Test bench for spectroscopy measurements of the
detector in the Planar Parallel Field configuration
Cooling plate
Experimental set-up: detector test bench in
a vacuum chamber with a cooling plate
M. Hernanz -­‐ ASTROGAM Workshop – Frasca:, 9-­‐10/12/2014 Detectors for hard X/soft gamma-rays
Some papers in SPIE (Amsterdam 2012 meeting) and NIMA
M. Hernanz -­‐ ASTROGAM Workshop – Frasca:, 9-­‐10/12/2014 Detectors for gamma-rays. Simulations for DUAL / M3
José M. Alvarez, PhD Thesis, 2013
M. Hernanz -­‐ ASTROGAM Workshop – Frasca:, 9-­‐10/12/2014 Instrumentation for High-E Astrophysics: X-rays
ICE only
M. Hernanz -­‐ ASTROGAM Workshop – Frasca:, 9-­‐10/12/2014 Mechanical design of the LOFT-WFM instrument
Figura 1: Instrumento WFM
Figura 3: Uno de los detectores ensamblados (detector assembly)
en la bandeja del detector (detector support plate)
Figura 2: Geometría de una cámara WFM
Figura 4: Vista de sección del mecanismo de pretensión de la máscara codificada
M. Hernanz -­‐ ASTROGAM Workshop – Frasca:, 9-­‐10/12/2014 M. Hernanz -­‐ ASTROGAM Workshop – Frasca:, 9-­‐10/12/2014 Figura 5: Vista explosionada de una cámara de WFM
Thermal design of the LOFT-WFM WFM de LOFT
Background simulations
Cámara WFM
ICU
Figura 6: Modelo térmico geométrico y matemático (GMM/TMM) del WFM
Figura 8: Geometría de la cámara WFM
Figura 9: Ruido de fondo sobre el WFM
Figura
7: Esquema
del proceso W
deorkshop transferencia
calor en
la
M. Hernanz -­‐ ASTROGAM – Fde
rasca:, 9-­‐10/12/2014 cámara del WFM
M. Hernanz -­‐ ASTROGAM Workshop – Frasca:, 9-­‐10/12/2014 M. Hernanz -­‐ ASTROGAM Workshop – Frasca:, 9-­‐10/12/2014 •  Si strip detectors
•  Collaboration with
FBK (general)
M. Hernanz -­‐ ASTROGAM Workshop – Frasca:, 9-­‐10/12/2014 M. Hernanz -­‐ ASTROGAM Workshop – Frasca:, 9-­‐10/12/2014