D. E. Hughes scite author profile

D. E. Hughes

5Publications

10Citation Statements Received

3Citation Statements Given

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Affiliations

Integrated Radiological Services (United Kingdom), University of Leeds, Motorola (United States)

Publications

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ULSI-quality gate oxide on thin-film-silicon-on-insulator

Huang

Racanelli

et al.

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Gate oxide quality for s u b -0 . 5~ applications on 7hin-FilmSilicon-On-Znsulator (TFSOI) substrates is described.Intrinsic thermal oxide properties such as I-V, QBD and charge trapping rates, as well as device effective mobilities, of TFSOI are comparable to bulk. However, increased surface mim-roughness on SO1 materials leads to a higher thermal oxide defect density relative to that of bulk silicon. The use of wafer polish or stacked thermal/LPCVD oxide is found to be effective in achieving bulk-quality oxide defect densities on TFSOI while maintaining intrinsic I-V, QBD and charge trapping properties.

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A vertically integrated media-isolated absolute pressure sensor

Goldman

Gritt

Baskett

et al. 1998

Sensors and Actuators A: Physical

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Evaluation and testing of computed radiography systems

Charnock

Connolly

Hughes

et al. 2005

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The implementation of film replacement digital radiographic imaging systems throughout Europe is now gathering momentum. Such systems create the foundations for totally digital departments of radiology, since radiographic examinations constitute the most prevalent modality. Although this type of development will lead to improvements in the delivery and management of radiological service, such widespread implementation of new technology must be carefully monitored. The implementation of effective QA tests on installation, at periodic intervals and as part of a routine programme will aid this process. This paper presents the results of commissioning tests undertaken on a number of computed radiography imaging systems provided by different manufacturers. The aim of these tests was not only to provide baseline performance measurements against which subsequent measurements can be compared but also to explore any differences in performance, which might exist between different units. Results of measurements will be presented for (1) monitor and laser printer set-up; (2) imaging plates, including sensitivity, consistency and uniformity; (3) resolution and contrast detectability; and (4) signal and noise performance. Results from the latter are analysed in relationship with both system and quantum noise components.

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The electron in chemistry

Hughes¹

1997

Phys. Educ.

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Central dose data management and analysis in IT-driven radiation protection strategies

Ward

Hughes

Connolly

et al. 2005

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The applications of information technology in health care are now widespread and continue to grow. Medical imaging is at the forefront of this revolution and the introduction of digital detection methods to replace film is now addressing the diagnostic X-ray market, the most routinely employed imaging modality. The introduction of picture archiving and communication systems, hospital and radiology information systems is well underway, and the integration of radiation protection initiatives into these developments is desirable. In north-west UK, a project aimed at developing and implementing IT-driven radiation protection strategies has been underway for the past 10 y. Such strategies are geared towards the support of European Commission patient dose directive 97/43 EURATOM, in particular the need to implement clinical audit, patient dose audit and to establish dose reference levels. This paper demonstrates the national and local requirements for establishing a central dose data management system for use in radiation protection strategies. In particular, such a system can help develop and support the role of a medical physics expert in optimisation. The scientific requirements for such an approach are presented in this paper, and a prototype system is described. Preliminary results obtained with the central data management facility are also presented and the implication for analysing multiple site dose data in optimisation strategies for digital radiographic technology is highlighted.

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D. E. Hughes

ULSI-quality gate oxide on thin-film-silicon-on-insulator

A vertically integrated media-isolated absolute pressure sensor

Evaluation and testing of computed radiography systems

The electron in chemistry

Central dose data management and analysis in IT-driven radiation protection strategies

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