First experimental feasibility study of VIPIC: a custom-made detector for X-ray speckle measurements

Autor: Andrei Fluerasu, Abdul K. Rumaiz, Alec Sandy, Mark Sutton, Anthony Kuczewski, Piotr Maj, Grzegorz Deptuch, D. Peter Siddons, Robert Bradford, Suresh Narayanan, Gabriella Carini, Eric M. Dufresne
Rok vydání: 2015
Předmět:
Zdroj: Journal of Synchrotron Radiation
ISSN: 1600-5775
Popis: Preliminary X-ray correlation spectroscopy results from the novel three-dimensional vertically integrated photon imaging chip (VIPIC) detector are presented.
The Vertically Integrated Photon Imaging Chip (VIPIC) was custom-designed for X-ray photon correlation spectroscopy, an application in which occupancy per pixel is low but high time resolution is needed. VIPIC operates in a sparsified streaming mode in which each detected photon is immediately read out as a time- and position-stamped event. This event stream can be fed directly to an autocorrelation engine or accumulated to form a conventional image. The detector only delivers non-zero data (sparsified readout), greatly reducing the communications overhead typical of conventional frame-oriented detectors such as charge-coupled devices or conventional hybrid pixel detectors. This feature allows continuous acquisition of data with timescales from microseconds to hours. In this work VIPIC has been used to measure X-ray photon correlation spectroscopy data on polystyrene latex nano-colliodal suspensions in glycerol and on colloidal suspensions of silica spheres in water. Relaxation times of the nano-colloids have been measured for different temperatures. These results demonstrate that VIPIC can operate continuously in the microsecond time frame, while at the same time probing longer timescales.
Databáze: OpenAIRE
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