593 articles – 2569 Notices  [english version]
HAL : in2p3-00618519, version 1

Fiche détaillée  Récupérer au format
Nuclear Instruments and Methods in Physics Research Research: Accelerators, Spectrometers, Detectors and Associated Equipment 659 (2011) 499-503
New concept of a submillimetric pixellated Silicon detector for intracerebral application
M. Benoit1, J. Märk2, P. Weiss2, D. Benoit3, J.C. Clemens2, D. Fougeron2, B. Janvier3, M. Jevaud2, S. Karkar2, M. Menouni2, F. Pain3, L. Pinot3, C. Morel2, P. Laniece3
(2011)

A new beta+ radiosensitive microprobe implantable in rodent brain dedicated to in vivo and autonomous measurements of local time activity curves of beta radiotracers in a volume of brain tissue of a few mm3 has been developed recently. This project expands the concept of the previously designed beta microprobe, which has been validated extensively in neurobiological experiments performed on anesthetized animals. Due to its limitations considering recordings on awake and freely moving animals, we have proposed to develop a wireless setup that can be worn by an animal without constraining its movements. To that aim, we have chosen a highly beta sensitive Silicon-based detector to devise a compact pixellated probe. Miniaturized wireless electronics is used to read-out and transfer the measurement data. Initial Monte-Carlo simulations showed that high resistive Silicon pixels are appropriate for this purpose, with their dimensions to be adapted to our specific signals. More precisely, we demonstrated that 200 μm thick pixels with an area of 200 μm×500 μm are optimized in terms of beta+sensitivity versus relative transparency to the gamma background. Based on this theoretical study, we now present the development of the novel sensor, including the system simulations with technology computer-assisted design (TCAD) to investigate specific configurations of guard rings and their potential to increase the electrical isolation and stabilization of the pixel, as well as the corresponding physical tests to validate the particular geometries of this new sensor.
1 :  LAL - Laboratoire de l'Accélérateur Linéaire
2 :  CPPM - Centre de Physique des Particules de Marseille
3 :  IMNC - Imagerie et Modélisation en Neurobiologie et Cancérologie
Sciences du Vivant/Ingénierie biomédicale

Sciences de l'ingénieur/Micro et nanotechnologies/Microélectronique
Intracerebral probe – PET imaging – Silicon pixel detectors – Small animal imaging