GGrantIndex
← Search

High-Count-Rate Detector for Synchrotron Applications

$100,000R43FY2002RRNIH

Aracor, Sunnyvale CA

Investigators

Abstract

DESCRIPTION (provided by applicant): Synchrotron-based x-ray fluorescence spectroscopy is a major scientific tool for solving a wide range of problems with important applications in the material and biological sciences. There is an urgent need for fast, efficient x-ray detectors for effective utilization of synchrotron-based facilities. The objective of this proposed work is to develop ZRG1 SSS6 (10) 2 1R43RR16820-01 JULY 12, 2001 WANG, Y. a silicon pixel-array detector (PAD) for synchrotron-based and laboratory-based x-ray applications. The PAD arrays will be bump bonded onto an application-specific integrated circuit (ASIC) which will provide high-energy-resolution and high-count-rate capability. Phase I will integrate an 8x8 array detector/IC module and demonstrate the potential performance of this approach. This will lay the foundation for the Phase II implementation of a PAD and the associated data acquisition system. The success of this project will lead to a new generation of detectors for high-count-rate x-ray applications. PROPOSED COMMERCIAL APPLICATIONS: The primary market will be the macromolecular biology facilities located at synchrotron radiation sources around the world. Additional applications are expected in the field of laboratory analytical instrumentation.

View original record on NIH RePORTER →