B. Price scite author profile

We discuss the data acquisition and analysis procedures used on the Allegro gravity wave detector, including a full description of the filtering used for bursts of gravity waves. The uncertainties introduced into timing and signal strength estimates due to stationary noise are measured, giving the windows for both quantities in coincidence searches. ͓S0556-2821͑96͒01414-2͔ PACS number͑s͒: 04.80.Nn

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Large field of view, fast and low dose multimodal phase-contrast imaging at high x-ray energy

Astolfo

Endrizzi

Vittoria

et al. 2017

Sci Rep

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X-ray phase contrast imaging (XPCI) is an innovative imaging technique which extends the contrast capabilities of ‘conventional’ absorption based x-ray systems. However, so far all XPCI implementations have suffered from one or more of the following limitations: low x-ray energies, small field of view (FOV) and long acquisition times. Those limitations relegated XPCI to a ‘research-only’ technique with an uncertain future in terms of large scale, high impact applications. We recently succeeded in designing, realizing and testing an XPCI system, which achieves significant steps toward simultaneously overcoming these limitations. Our system combines, for the first time, large FOV, high energy and fast scanning. Importantly, it is capable of providing high image quality at low x-ray doses, compatible with or even below those currently used in medical imaging. This extends the use of XPCI to areas which were unpractical or even inaccessible to previous XPCI solutions. We expect this will enable a long overdue translation into application fields such as security screening, industrial inspections and large FOV medical radiography – all with the inherent advantages of the XPCI multimodality.

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The ATIC long duration balloon project

Guzik

Adams

Ahn

et al. 2004

Advances in Space Research

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Beam tests of the balloon-borne ATIC experiment

Ganel¹,

Adams²,

Ahn³

et al. 2005

Nuclear Instruments and Methods in Physics Research Section A:

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<title>Balloon-borne coded aperture telescope for arc-minute angular resolution at hard x-ray energies</title>

McConnell

Boykin

Kippen

et al. 1996

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We are working on the development of a new balloon-borne telescope, MARGIE (Minute-of-Arc Resolution Gamma ray Imaging Experiment). It will be a coded aperture telescope designed to image hard X-rays (in various configurations) over the 20-600 keV range with an angular resolution approaching one arc minute. MARGIE will use one (or both) of two different detection plane technologies, each of which is capable of providing event locations with sub-mm accuracies. One such technology involves the use of Cadmium Zinc Telluride (CZT) strip detectors. We have successfully completed a series of laboratory measurements using a prototype CZT detector with 375 micron pitch. Spatial location accuracies of better than 375 microns have been demonstrated. A second type of detection plane would be based on CsI microfiber arrays coupled to a large area silicon CCD readout array. This approach would provide spatial resolutions comparable to that of the CZT prototype. In one possible configuration, the coded mask would be 0.5 mm thick tungsten, with 0.5 mm pixels at a distance of 1.5 m from the central detector, giving an angular resolution of 1 arc-minute and a fully coded field of view of 12 degrees. We review the capabilities of the MARGIE telescope and report on the status of our development efforts and our plans fora first balloon flight.

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B. Price

The Allegro gravitational wave detector: Data acquisition and analysis

Large field of view, fast and low dose multimodal phase-contrast imaging at high x-ray energy

The ATIC long duration balloon project

Beam tests of the balloon-borne ATIC experiment

<title>Balloon-borne coded aperture telescope for arc-minute angular resolution at hard x-ray energies</title>

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