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Microwave Kinetic Inductance Detector Development

[image-51]Paul Szypryt
University of California, Santa Barbara

In recent decades, time-resolved multi-wavelength observations have gained increased importance in the study of X-ray binaries and similar star systems. Previous studies of these systems have focused on time-averaged spectra ranging from radio to hard X-rays, and time variability studies have been difficult in the lower energy regimes. Now, thanks to newly available optical and infrared instruments capable of fast readout with high efficiency, the study of rapid time variability in the multi-wavelength light curves of X-ray binaries is beginning to look very promising. One instrument capable of making these observations is the ARray Camera for Optical to Near-IR Spectrophotometry (ARCONS). ARCONS uses a new superconducting technology called Microwave Kinetic Inductance Detectors (MKIDs). Current MKID arrays are quite small and are limited in the types of objects they can observe. In order to make real progress, these arrays must contain many thousands of pixels. The technological challenges of building and reading out large low temperature arrays (more than ~1000 pixels) are formidable, but MKIDs have an advantage over many of these arrays due to their ease of fabrication and readout. I propose to develop larger MKID arrays with higher energy resolution so that they may be used to observe important time-variable science targets.

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Paul Szypryt
Paul Szypryt
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Page Last Updated: August 16th, 2013
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