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Prof A. T. Doyle PhD CPhys FInstP FRSE |
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Department of Physics and Astronomy |
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University of Glasgow |
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University Avenue |
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G12 8QQ |
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Telephone: 0141-330 5899 |
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Fax: 0141-330 5881 |
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Name |
Anthony Terence Doyle |
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Date of Birth |
28th January 1963 |
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Place of Birth |
Leeds, UK |
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Nationality |
British |
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Family Status |
Married with three children |
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Aug. 02 - present: |
Professor, University of Glasgow |
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Apr. 08 - present: |
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Particle Physics Experiment Group Leader |
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Apr. 08 - present: |
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GridPP Technical Director |
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Mar. 01 - Mar. 08: |
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GridPP Project Leader |
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Sep. 07 - present: |
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STFC Senior Research Fellow |
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Apr. 05 - present: |
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Fellow of the Royal Society of Edinburgh |
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Sep. 04 - Aug. 07: |
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PPARC Senior Research Fellow |
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Apr. 01 - present: |
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Fellow of the Institute of Physics |
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Jan. 98 - present: |
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Alexander von Humboldt Fellow |
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Aug. 99 - Jul. 02: |
Reader, University of Glasgow |
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Oct. 00 - Aug. 01: |
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PPARC Senior Research Fellow |
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Oct. 90 - Jul. 99: |
Lecturer, University of Glasgow |
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Sep. 97 - Dec. 97: |
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Visiting Research Scientist, DESY |
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Sep. 94 - Aug. 95: |
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Visiting Research Scientist, DESY |
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Jan. 94 - Apr 94: |
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Visiting Research Scientist, DESY |
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Oct. 87 - Sep. 90: |
SERC Research Associate in Physics, University of Manchester |
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Oct. 84 - Sep. 87: |
SERC Research Student, University of Manchester |
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Jun. 84 - Sep. 84: |
Vacation Student, University of Manchester |
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Tertiary |
University of Manchester |
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Oxford Road, Manchester. |
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(1981-1987) |
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Qualifications: |
Ph.D. in Experimental Particle Physics (October 1987); |
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Dp. Adv. Std. Sc. in Experimental Particle Physics (May
1985); |
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B.Sc. (Hons, First Class) Physics (June 1984). |
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Secondary |
Cardinal Heenan High School, |
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Tongue Lane, Leeds. |
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(1974-1981) |
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Qualifications: |
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A Levels (1981) |
Chemistry, General Studies, Mathematics, Physics. |
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AO Level (1980) |
General Studies. |
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O Levels (1979) |
Biology, Chemistry, English Language, English Literature, |
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French, Geography, Latin, Mathematics, Physics. |
I am a Professor of Physics and group leader of the experimental particle physics group at the University of Glasgow. I am currently working on experiments based at CERN (Geneva) and DESY (Hamburg). I have worked on various data analysis issues, starting with online trigger systems, progressing to Monte Carlo simulation studies and through to physics data analysis. As an Alexander von Humboldt Fellow, DESY Visiting Scientist and member of the ZEUS Collaboration, I worked on the analysis of Structure Functions and Hadronic Final States in Deep Inelastic Scattering.
I am GridPP Technical Director, working with a collaboration of Particle Physicists and Computing Scientists from the UK and CERN, who are building a Grid for Particle Physics. I co-direct the ScotGrid project, collaborate within the EU EGEE project, and I am a member of various UK e-Science Boards and Committees.
Most recently, as an STFC Senior Research Fellow and member of the ATLAS Collaboration, I have been working on analysis methods to search for the Higgs boson at the LHC. This task requires petabyte-scale data resources and led to an interest in Grid Data Management, including efficient navigation mechanisms between datasets using tags. Secondly, despite the large computational resources available via the Grid, the task necessitates improved simulation methods. Thirdly, it requires enhanced analysis methods, including multivariate analyses and advanced statistical methods to extract the Higgs signal from the significant backgrounds.
I am a Fellow of the Alexander von Humboldt Foundation (since 1998), Fellow of the Institute of Physics (since 2001) and Fellow of the Royal Society of Edinburgh (since 2005). I was awarded a PPARC Senior Research Fellowship in 2000 and an STFC Senior Research Fellowship in 2007. I am listed in Debrett’s People of Today (since 2006) and Marquis Who's Who (since 2007).
I played a leading role in the Deep Inelastic Scattering (DIS) measurements at the DESY laboratory in Hamburg working on the ZEUS experiment. These measurements have historically been central in the development of our understanding of the theory of nuclear interactions in terms of Quantum Chromo-Dynamics (QCD), which describes the interactions of quarks and gluons. The advent of HERA at DESY, the first electron-proton collider, enabled energies two orders of magnitude beyond those previously studied to be reached.
I acted as physics coordinator, leading two ZEUS physics working groups, and was appointed a DESY visiting scientist during sabbatical leave from Glasgow. This was at an exciting stage of development of the experiment, where all of the ZEUS top-cited papers were produced, and resulted in a significant number of publications [31,37-39,42,44,46,52-55,57-59,62-64]. I played a major role in the analysis of fragmentation [20,44,80] and structure functions [23,25,58,64,97], as well as the measurement of multi-jet [46] and diffractive [18,21,53] events in DIS. This led to investigations of the future capabilities of the HERA experiments (following the HERA luminosity upgrade) with respect to the measurement of structure functions [19].
My achievements as physics coordinator led to my appointment as ZEUS physics chairman where I took steps to improve the editorial procedure. This resulted in an improved publication rate [81-98] and a significant number of submissions (35 papers) to the ICHEP98 conference, the premiere biennial event in the particle physics calendar. I reviewed the field of structure functions at the ICHEP98 and CIPANP2000 conferences [23,25].
I played a major role in interpreting and communicating the results from the HERA experiments which resulted in a number of invited plenary talks at major workshops, summer schools and conferences. I presented a series of academic training and summer school lectures on HERA physics and DIS as well as seminars around the UK.
I initiated studies of fragmentation in the Breit frame [20,22,44, 99] and event shapes in DIS [24, 145], leading to a first paper on ZEUS event shapes published in 2003 [145]. I also contributed, as PhD thesis supervisor, to the first results on applying NLO, power correction and resummation techniques to the event shape data [184]. I recently completed work on the analysis of the charm contribution to the structure function in DIS, supervising a research student in this area.
I am currently working on various analyses to identify Higgs production using simulated data from the ATLAS experiment. I have been active in numerous areas of ATLAS analysis and software development. For example, we are developing searches for the low mass Higgs boson in the mass range 100-120 GeV/c2, via hW, htt and hZ decay channels with subsequent h ® bb decay. Three aspects of the work arise: the organisation of the simulation validation frameworks using advanced metadata techniques, validation of the software chain for these specific channels with emphasis on the understanding of the ATLAS SCT, and improvements in the significance of the Higgs search using support vector machine and neural network-based approaches.
I was awarded a PPARC senior research fellowship to develop analyses and infrastructure at HERA and the LHC. This senior research fellowship was approved to continue by STFC in 2007.
ZEUS: This work is essentially complete, concentrating on the hadronic final states work. During the past three years, I have continued to lead and supervise students in this area. As a result a follow-up paper on ZEUS event shapes was published in 2007 [184]. I also worked with others at Glasgow on the updated measurement of F2charm from the 2003-05 data sample. I continue to serve on the ZEUS Editorial Panel, having acted as editorial board member and contributor to earlier analyses and ‘wise person’ for two recent papers [176,209].
ATLAS: I lead software development within the ATLAS group, focussing on new simulation software: the main effort incorporating work from three RAs and a PhD student led to an extended framework (ATLFAST-C) including identification and mis-identification for the particles detected in ATLAS (electrons, photons, muons, jets). The software enables ATLAS events to be simulated efficiently at the required level of precision (typically 2-3%) compared to more detailed simulations: the code is now released for large scale testing. A further aspect of the ATLAS work, where I supervise two RAs and a PhD student, is the development of the ATLAS tag database which enables ATLAS events of interest to be extracted more efficiently from the huge data samples anticipated at LHC start-up. A Tag Navigation Tool (TNT) developed by our group is being applied, amongst many other areas, to the validation of the ATLAS fast simulation validation work, which in turn contributes to the efficient analysis of simulated Higgs background events.
On the physics analysis side, I am working on Higgs discovery at the LHC, as part of the larger group effort in this important area of future physics discovery. The most recent work has improved the probability for Higgs signals to be observed above background by taking the shape of the invariant mass distribution fully into account in the log-likelihood analysis. We are specifically investigating the htt, hW and hZ decay channels with subsequent h ® bb decay as well as combining these with other channels. We have improved previously observed performances using neural network-based approaches and have investigated support vector machine techniques. We are implementing these analyses within the ATLAS software framework. Future work will enable this work to continue to completion, with a spotlight on improved low-mass Higgs search analysis techniques, now that the software foundations are in place.
The low-mass Higgs search builds upon standard model analyses with six RAs and students who are currently active in ATLAS analysis and software development. Our CDF group members are also developing searches for the low mass Higgs boson in the mass range 115-200 GeV/c2. We review Higgs analyses as part of a coherent effort at Glasgow.
Neutrino Factory: I signed the UK Neutrino Factory proposal in order to contribute to the neutrino factory target studies work package. This package aims to determine the optimal geometry of the target for a neutrino factory, based on shock studies to be performed at RAL, and simulations of the MICE beam-line. Studies will be undertaken on the energy optimisation. An increasing role is anticipated.
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STFC Senior Research Fellow |
Sep. 07 - present |
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PPARC Senior Research Fellow |
Oct. 00 - Jul. 01 |
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Sep. 04 - Aug. 08 |
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Physics Chairman, ZEUS Collaboration |
Oct. 97 - Sep. 98 |
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Alexander von Humboldt Fellow |
Jan. 98 - Dec. 98 |
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Physics Coordinator, Deep Inelastic Scattering Group, ZEUS collaboration |
Sep. 94 - Aug. 95 |
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Physics Coordinator, Hadronic Final States in DIS Group, ZEUS collaboration |
Sep. 93 - Aug. 94 |
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Visiting Scientist, DESY laboratory |
Jan. 94 - Apr. 94 |
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Sep. 94 - Aug. 95 |
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Oct. 97 - Dec. 97 |
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Higgs Discovery at the LHC |
SUPA PP Theme Start-Up Meeting, Glasgow |
Oct. 05 |
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Deep Inelastic Scattering |
CTEQ-IPPP Summer School Lectures, St Andrews |
Jun. 01 |
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Structure Functions |
EU Lattice Network Start-Up Meeting, Glasgow |
Oct. 00 |
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Event Shapes in DIS at HERA |
Low-x Workshop, Oxford |
Jul. 00 |
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Structure Functions at High Q2 |
CIPANP2000 Conference, Quebec |
May 00 |
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Event Shapes and Forward Jets |
Hadron99 Conference, Beijing |
Aug. 99 |
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Hadronic Final States |
Low-x Workshop, Tel Aviv |
Jun. 99 |
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Physics at HERA |
CERN Academic Training Lectures, Geneva |
May 99 |
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Structure Functions |
ICHEP98 Conference, Vancouver |
Jul. 98 |
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HERA Physics |
IoP98 Conference, Manchester |
Apr. 98 |
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Highlights from ZEUS |
DIS98 Workshop, Brussels |
Apr. 98 |
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Diffraction |
Lecture, SLAC 25th Summer Institute, Stanford |
Aug. 97 |
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Hadronic Final States Summary |
DIS97 Workshop, Chicago |
Apr. 97 |
A SPIRES citation analysis of my published papers is summarised below[1].
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Famous papers (250-499 citations): |
7 |
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Very well-known papers (100-249): |
25 |
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Well-known papers (50-99): |
31 |
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Known papers (10-49): |
83 |
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Less known papers (1-9): |
39 |
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Unknown papers (0): |
4 |
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Total eligible papers: |
189 |
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Total number of citations: |
10457 |
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Average citations per paper: |
55 |
I was project leader from 2001 to 2008 of the UK Grid for Particle Physics (GridPP), a collaboration of twenty Institutes, incorporating CERN [II, IV]. I led Phases 1 and 2 of GridPP, the largest single e-Science project in the UK (£33m over 6 years), towards their successful completion.
The first phase of the project ‘from Web to Grid’ was completed in 2004 with 88% of the 190 high-level tasks completed and with all 44 metrics within specification. The significance of these developments, where a Global Grid infrastructure was set up and tested, was widely recognised. I was interviewed and quoted in the UK and International press on various developments as “the Grid becomes reality” in e.g. New Scientist and The Guardian as well as in most computing magazines and their online counterparts. Personal dissemination of the results also included overviews for the DTI (“Meeting the Particle Physics Computing Challenge”) and PPARC (“Gearing up for the Grid”). The significance of these international developments was reported in The Economist as the “World’s Largest Grid” in October 2004.
I also led Phase 2 ‘from prototype to production’: as GridPP Project Leader I was responsible for all aspects of the project and chaired the weekly Project Management Board meetings. In preparation for LHC start-up I instigated a series of Site Readiness Reviews, which visited all the GridPP sites in the UK and provided management, operations, technical and experiment feedback to ensure that everyone was aware of the issues, obligations, plans, costs and service levels. The project continued to meet its targets in terms of management and delivery and was extended through to April 2008, when I stepped down to become Technical Director to focus on physics exploitation as a member of the ATLAS collaboration. I was quoted worldwide in over 40 press articles in April 2008 ranging from The Sunday Times, Toronto Sun, Business Standard, The Times of India, MSN, News.com, Goa Herald, Breaking News (Trinidad and Tobago) and elsewhere. I was interviewed by the Australian Broadcasting Corporation, BBC World Service and Cybershack (Australia).
As project leader I directed the UK Grid programme and ensured the delivery of a computing service to the experiments, extending from the computing fabric for the Tier Centres, to generic middleware and the Grid-enablement of the experiments. I edited the proposals, coordinated planning documents in various areas and wrote three summary articles for UK e-Science All Hands Meetings [215-217]. The project was subject to a mid-term review by the PPARC Oversight Committee who concluded “Excellent progress, management, control, reporting and thinking (both tactical and strategic)…. It is difficult to imagine more impressive progress all round.” At a PPARC Grid Steering Committee meeting in January 2005, the committee expressed their great confidence in GridPP’s progress and management. I contributed towards establishing the LHC Computing Grid (LCG) project, based at CERN, and have been active in the international management structure and LCG committees as GridPP Project Leader.
I co-lead the ScotGrid project, a component in the UK
development of a computational data grid for particle physics analyses [I].
This joint Edinburgh-Glasgow project established a Tier-2 centre with IBM-UK as
the industrial partner. The ScotGrid-Glasgow
Compute Farm was set up in 2002 and provided a model for Tier-2 operations,
having contributed directly to ATLAS and LHCb data challenges and been
integrated to the EU DataGrid, SAM and UK e-Science Grid systems. The ScotGrid system
was upgraded in 2006 and has now processed more than a million jobs and
provided more than 5 million CPU hours for hundreds of users supporting a wide
range of applications (ATLAS, LHCb, BaBar, CDF via SAM-Grid, Grid Data
Management OptorSim simulations, Bioinformatics, ZEUS, Medipix, Information
Retrieval, Device Modelling, MICE and UKQCD). ScotGrid was extended to
incorporate activities at Durham, and is currently being planned to extend more
widely across Scotland reflecting the success in developing a production Grid that has been recognised by
the wider community.
I led UK middleware developments in Grid Data Management, working closely with colleagues at CERN within the EU DataGrid and EGEE programmes. 34 technical publications on Grid Data Management were produced as part of GridPP developments. These covered various aspects of Grid optimisation, metadata, replication, standards and deployment. A further 5 overviews were written on the GridPP project. The preprints are available from http://ppewww.ph.gla.ac.uk/preprints/.
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Year |
2001 |
2002 |
2003 |
2004 |
2005 |
2006 |
2007 |
Total |
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Publications |
1 |
6 |
7 |
4 |
7 |
6 |
8 |
39 |
The expertise we built up during this period meant that we were given responsibility to provide solutions for metadata development applied to the experiments; extend generic metadata tool development; deploy scalable and robust service architectures; and integrate novel replica optimisation techniques applied to the Grid. The links established between our group and Edinburgh and Glasgow computing scientists helped in establishing the UK National e-Science Centre in Scotland [III]. I currently serve on various UK e-Science committees (see the Research Administration section).
I supervise a team of 4 RAs and one postgraduate student working on Grid Data Management, focussing on metadata development. I also worked with an RA to develop optimised approaches to analysis on the worldwide LHC Computing Grid envisaged in 2008. This simulation work showed that dynamically replicating data between sites using analysis access patterns decreases the running time and network usage of grid jobs by up to a factor 3. This area is acknowledged to be of key long-term importance. A total of more than 40 papers have now been written by the Glasgow Grid group. As part of the wider GridPP Technical Director role I am now preparing a programme for improved efficiency on the UK Grid, taking into account this and other longer-term developments. I also lead Grid deployment effort for ScotGrid, where a 4-year project is currently being proposed to SFC that aims to establish a Scottish Grid Service in support of research throughout Scotland supporting a wide variety of disciplines.
The GridPP2 project was subject to a mid-term review by the Oversight Committee who concluded “The GridPP2 programme has continued to impress and shows every likelihood of delivering against its ambitious programme. As a management team they have demonstrated tremendous stewardship of a complex technical area and have made excellent use of the available resources. As the largest UK e-Science project and part of the world's largest Grid, it has established the UK as a leading centre for HEP on the Grid and is poised to consolidate this position through GridPP3. The Oversight Committee strongly endorses the existing programme of activity and would recommend funding the continuation project.” The £30m GridPP3 project was subsequently approved at the final meeting of PPARC. The next phase ‘from production to exploitation’ is being planned to go from a widely deployed production system to a system for exploitation of physics results from the LHC. The scope of future Grid work encompasses my role as GridPP3 Technical Director, emphasising experimental use of the Grid for LHC physics.
The GridPP approach to management and leadership has influenced other e-Science projects, within and beyond STFC. In leading the project from conception, I have personally presented more than 80 talks on Grid development, in addition to published work. The significance of these developments has been widely reported and I have been interviewed and quoted in the UK and international press. We have pioneered large-scale project management techniques, as well as developing and deploying a very large Grid across the UK meeting the needs of more than 5,000 end users. Starting from a few testbed systems, the scale of the Grid in the UK is currently more than 8,000 CPUs with 0.5PB of Grid-accessible storage and is the largest country-wide infrastructure in Europe. It is rapidly approaching the O(10,000) CPUs and O(1) PB disk milestones required for LHC start-up.
I have presented more than 80 invited talks in the last 7 years on various aspects of the Grid.
See http://ppewww.ph.gla.ac.uk/~doyle/gridtalks/.
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Year |
2001 |
2002 |
2003 |
2004 |
2005 |
2006 |
2007 |
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Talks |
5 |
19 |
16 |
15 |
13 |
8 |
8 |
Grants are in the fields of experimental particle physics research and Grid development. I am principal investigator for various multi-million pound grants from the EU, SFC and STFC. My individual written contributions to a total of 25 successful grant submissions, as well as my input to the proposed work, has increased significantly in the past eight years.
[A] EU Framework VII Award (2008): “Enabling Grids for E-sciencE (EGEE)”, €297,636, 24 months. Principal Investigator with Prof. D. Britton.
[B] STFC Senior Research Fellowship Award (2007): “STFC Senior Research Fellowship”, £TBC, 3 years 7 months
[C] SFC Proposal (2007): “Proposal for the establishment of the Scottish Grid Service (ScotGrid)”, £5,988,789 total matched by similar University contributions, 4 years, Principal Investigator.
[D] SFC Award (2007): “Proposal to Establish the Scottish Grid Service (ScotGrid) Project Team”, £25,000, 6 months, Principal Investigator.
[E] STFC Grid Proposal (2008): “GridPP Hardware Resources at the University of Glasgow”, £428,900, 2 years. Principal Investigator with Prof. D. Britton.
[F] STFC Grid Award (2007): “GridPP Manpower Resources at the University of Glasgow”, £1,798,058, 3 years 7 months. Principal Investigator with Prof. D. Britton.
[G] PPARC Grid Application (2006): “The UK Grid for Particle Physics (GridPP3)”, £29.5m, 3 years 7 months. Principal Contact with Prof. D. Britton [new Project Leader] and Prof. S.L. Lloyd (QMUL).
[H] PPARC Rolling Grant Award (2006): “Experimental Particle Physics”, £5,626,579, 3+2 years. Principal Investigator from April 2008: personal contribution to the ZEUS, ATLAS, neutrino factory and computing programmes.
[I] EU Framework VI Award (2006): “Enabling Grids for E-sciencE (EGEE)”, £112,244, 24 months. Principal Investigator.
[J] PPARC e-Science Award (2007): “ATLAS Comparator (continuation)”, £12,034, 3 months, Principal Investigator.
[K] SFC SUPA Award (2005) “SUPA Higgs Fellow”, £144,360, 4 years, Principal Investigator.
[L] SFC SRIF3 Award (2005) “Scottish Grid Service” (equipment), £800,000, 4 years, Principal Investigator.
[M] PPARC e-Science Award (2004): “ATLAS Comparator”, £120,730, 33 months,
Principal Investigator with Prof. D.H. Saxon.
[N] PPARC Rolling Grant Award (2004): “Experimental Particle Physics”, £3,438,906, 4 years. Principal Investigator: Prof. D.H. Saxon: personal contribution to the ZEUS, ATLAS, neutrino factory and computing programmes.
[O] PPARC Award (2004): “GridPP Project Leader”, £261,054, 2/3rd salary, 3 years,
with Prof. D.H. Saxon (Principal Investigator).
[P] PPARC Award (2004): “GridPP2: Grid Data Management”, £153,602, 3 years,
Principal Investigator with Prof. D.H. Saxon and Dr R. St Denis.
[Q] PPARC Award (2004): “GridPP2: Grid Data Management”, £451,988, 3 years,
Principal Investigator with Prof. D.H. Saxon and Dr R. St Denis.
[R] PPARC Award (2004): “The UK Grid for Particle Physics (GridPP2)”, £15.9m, 3 years,
Principal Contact with Dr D. Britton (IC) and Prof. S.L. Lloyd (QMUL).
[S] PPARC Award (2003): “Tier-2 Coordinator”, £25,082, 1 year, Principal Investigator with Prof. D.H. Saxon
[T] PPARC Award (2001): “GridPP Project Leader”, £270k, 4/5th salary, 3 years,
with Prof. D.H. Saxon (Principal Investigator).
[U] PPARC UK Award (2001): “The UK Grid for Particle Physics (GridPP1)”, £17m, 3 years,
Principal Contact with Dr. S.L. Lloyd (QMUL).
[V] EPSRC Award (2001): “National e-Science Centre”, £5.5m, 3 years,
with Prof. R. Kenway (Principal Investigator), Dr. S. Anderson, Dr. A. Trew (Edinburgh), Prof. M. Calder.
[W] PPARC Award (2001): “Grid Data Management (EU DataGrid)”, £74,511, 2 years RA salary,
Principal Investigator with Profs. D.H. Saxon, M.P. Atkinson.
[X] PPARC Award (2001): “Grid Data Management (EU DataGrid)”, £143,022, 3 years RA salary,
Principal Investigator with Prof. D.H. Saxon.
[Y] JREI SHEFC Award (2001): “The LHC Computing Challenge for Scotland (ScotGrid)”, £814,000, 3 years,
Principal Investigator with Drs. S. Playfer, A. Trew (Edinburgh), Prof C. van Rijsbergen.
[Z] PPARC Senior Research Fellowship Award (2000): “Standard Model Physics and Beyond at HERA and LHC”, £108,943, 3 years.
I have presented 15 courses to a wide range of engineering, astronomy, computing and physics students in all years. I significantly developed the courses each year in directions which reflected educational needs and feedback from students. I have been to various courses and workshops on the use of computer-based learning in teaching and have used computer-based and practical demonstrations to illustrate topics within my lectures.
I have supervised 10 PhD students and 4 Masters students to successful completion, examined 15 students as external examiner, and been internal examiner for 11. Postgraduate students have generally excelled in their research: my first Ph.D. student’s thesis won an international prize in 1994 from the Association of the Friends and Sponsors of DESY, in competition with institutions from 33 different countries in all areas of science; one M.Sc. I.T. thesis won the Glasgow University prize in 1997. I have tutored at the summer school for all UK experimental high energy physics students on six occasions. I have recently supervised students on analysis projects for Grid Data Management, on the ZEUS experiment, based at DESY, and on the ATLAS experiment, based at CERN. I have been appointed external examiner for Ph.D. students from various European and UK universities.
Optics (E1A), Magnetism (E1A), Cosmology (Ast1), Digital Microelectronics (MCA1), Sub-atomic Physics (P2), C Programming (P2), Classical and Quantum Waves (P2), Special Relativity (Ast2), Tutorials-Statistics/Electricity and Magnetism/Waves (P2), Tutorials-Waves/Optics/Diffraction (P2), Tutorials-Lasers/Circuits and Systems (P3H), High Energy Astrophysics (Ast3/4H), Numerical Methods (P3H), Radiation Detection (P4H), HERA Physics (postgraduate).
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Ph.D. Supervisor: 1 student on the ATLAS experiment |
Oct. 05 - present |
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M.Sc. Supervisor: 1 student on the ATLAS experiment |
Oct. 04 - Jun. 06 |
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Ph.D. Supervisor: 3 students on Grid Data Management |
Oct. 91 - present |
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Ph.D. Supervisor: 6 students on the ZEUS experiment |
Oct. 91 - Sep. 06 |
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Ph.D. Backup Supervisor: 3 students on the ATLAS experiment |
Oct. 92 - present |
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Ph.D. Backup Supervisor: 2 students on neutrino factory |
Oct. 03 - present |
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I.T. M.Sc. Supervisor: 3 students on computing projects |
May 92 - Jun. 06 |
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Tutor: RAL Summer School for Young High Energy Physicists |
Sep. 92 - Sep. 94 |
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Sep. 99 - Sep. 01 |
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Demonstrator: P1, P2, EE1 and E1A laboratories |
Oct. 90 - Sep. 00 |
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Supervisor: P1, P2 and P3H supervision groups |
Oct. 90 - Sep. 00 |
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Ph.D. Examiner: Lund, Madrid, Birmingham (2), Glasgow (9), Liverpool (3), Lancaster, London (2), Manchester (3), Oxford (2) |
Oct. 92 - present |
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I.T. M.Sc. Examiner: Glasgow (2) |
Jun. 94 - Jun. 97 |
I have played a role in various particle physics outreach activities e.g. open days for prospective undergraduates (see teaching administration) and events organised for younger children (most recently at the STFC-sponsored big bang exhibition at the Glasgow Science Centre in May 08). I have also been invited to describe the Grid to academics from diverse fields from aquaculture, arts and humanities, biology, chemistry, computer science, earth sciences, economics, education, engineering, management, mathematics, medicine, neuroscience, physics & astronomy, psychology and social sciences as well as various businesses. Examples of Grid talks for industry include:
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gLite adoption and opportunities for collaboration with industry |
EGEE Business Day, Westminster |
May 08 |
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Working towards a Real-Time Grid for Particle Physics |
Open Group, Glasgow |
May 08 |
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GridPP, The Grid and Industry |
PPARC KITE Club Grid Brokering Meeting, Cambridge |
May 06 |
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GridPP - An Operational Grid |
IBM Users Group Advisory Committee, Brussels |
May 02 |
I selected and reviewed the status of all particle physics experiments within the UK as a member of the Particle Physics Experiments Selection Panel where I was also referee for individual dark matter, neutrino and collider experiments. I was the first experimental member of the Particle Physics Theory Committee judging all theory grant proposals and was a referee on computing/phenomenology applications. I was a member of the Institute for Particle Physics Phenomenology Steering Committee and the PPARC Particle Physics Advisory Panel, with specific responsibility for the 10-year roadmap for strong interaction physics and grid computing. I have reviewed various proposals from eight national and international research councils.
I gained recognition as an expert on DIS physics and was appointed convenor of seven working groups at international workshops. I initiated the HERA Monte Carlo Workshop, which enabled development of analysis tools essential to the study of this complex field. I continue to review papers from the ZEUS experiment as one of 24 members of the experiment’s editorial panel, where I have acted as wise person for five papers from the collaboration. I also initiated a successful Scottish Universities Summer School in Physics on LHC Phenomenology and I am currently planning one on LHC Physics.
I led the GridPP and ScotGrid research programmes and was one of a team of six computer scientists and physicists to develop a proposal for the UK National e-Science Centre. I was appointed to other committees and oversight bodies associated with the UK e-Science programme, e.g. the JISC Committee for Support of Research, Pegasus Advisory Group (London School of Economics), Open Middleware Infrastructure Institute (OMII) UK Board (Southampton), and e-Science Institute (e-SI) Programme Committee (Edinburgh). I am a member of the ATLAS-UK computing planning group and was the UK leader for data management for the EU DataGrid project.
Within the university I am one of three academic members of the department management team as well as one of two research coordinators responsible for reviewing grant proposals prior to submission.
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Co-Director, SUSSP Summer School on LHC Physics (summer 2009) |
Dec. 07 - present |
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Member, Department of Physics & Astronomy Management Team |
Oct. 07 - present |
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Research Coordinator, Department of Physics & Astronomy |
Aug. 06 - present |
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Member, RSE Physics, Astronomy & Electrical Engineering Sectional Committee |
Oct. 06 - present |
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Member, Pegasus Advisory Group (London School of Economics) |
Jun. 06 - present |
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Member, OMII (Open Middleware Infrastructure) UK Board (Southampton) |
Jul. 06 - present |
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Member, EGEE (Enabling Grids for E-sciencE) Collaboration Board (EU) |
Apr. 06 - present |
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Member, e-SI (e-Science Institute) Programme Committee (Edinburgh) |
Oct. 05 - present |
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Deputy UK Representative, LCG Management Board |
Oct. 05 - Mar. 08 |
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Member, SUPA (Scottish Universities Physics Alliance) Particle Physics Theme Team |
Apr. 04 - present |
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Member, EGEE UK and Ireland Management Board |
Apr. 04 - present |
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Member, LCG Collaborative Tools Group |
Apr. 04 - Jun. 05 |
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Chairman, CCLRC/GridPP Tier-1/A Board |
Sep. 03 - Mar. 08 |
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Deputy UK Representative, LCG (Project) Overview Board |
Sep. 02 - present |
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Member, UK National Grid Service (Grid Operations Support Centre) Board |
Aug. 01 - present |
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Member, PPARC Particle Physics Advisory Panel |
Oct. 01 - Sep. 05 |
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Deputy UK Representative, EU DataGrid Project Management Board |
Sep. 01 - Sep. 03 |
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Member, LHC Computing Grid (LCG) Project Execution Board (CERN) |
Sep. 01 - present |
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Member, LCG Software Computing Committee (SC2) (CERN) |
Aug. 01 - Oct. 05 |
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Co-Director, 57th SUSSP Summer School on LHC Phenomenology |
Apr. 01 - Aug. 03 |
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Fellow, Institute of Physics (Member, Sep. 84 - Apr. 01) |
Apr. 01 - present |
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Project Leader, GridPP Collaboration |
Mar. 01 - present |
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Member, e-Science Data Information and Knowledge Transformation (eDIKT) Board Scientific Advisory Board |
Mar. 01 - Sep. 04 |
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Member, High Energy and Nuclear Physics InterGrid Collaboration Board |
Mar. 01 - Apr. 04 |
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Member, JISC Committee for Support of Research |
Mar. 01 - Feb. 04 |
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Member, Inst. for Particle Physics Phenomen. (IPPP) Steering Group (Durham) |
Dec. 00 - Dec. 06 |
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Member, National e-Science Centre (NeSC) Executive Board |
Dec. 00 - Sep. 04 |
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Project Leader, ScotGrid (Scottish Grid Service) |
Dec. 00 - present |
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Member, ZEUS Planning Group |
Oct. 00 - present |
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Member, ZEUS Editorial Panel |
Oct. 00 - present |
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Member, ATLAS-UK Computing Executive Board |
Jul. 00 - present |
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Referee, Danish Natural Science Research Council, EPSRC, Nuffield Foundation, PPARC, Science Foundation Ireland, STFC, Volkswagen Foundation, German Ministry for Research and Education (BMBF) proposals |
Apr. 00 - present |
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UK and GridPP Contact Person, Grid Data Management |
Apr. 00 - present |
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Budget Holder, ZEUS-UK Collaboration |
Jan. 00 - Dec. 01 |
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Member, PPARC Particle Physics Theory Committee |
Apr. 99 - Sep. 01 |
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Coordinator, Glasgow PPE Group I.T. Strategy |
Apr. 99 - present |
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Editor, HERA Monte Carlo Workshop Proceedings (DESY-PROC-1999-02) |
Jan. 99 - Aug. 99 |
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Organiser, HERA Monte Carlo Workshop, DESY |
Jan. 97 - Aug. 99 |
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Member, PPARC Particle Physics Experiments Selection Panel |
Oct. 95 - Oct. 98 |
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Referee, UK Dark Matter, CRESST, MINOS, CDF experiments |
Oct. 96 - Oct. 98 |
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Referee, Z. Phys. C and Euro. Phys. C journal papers |
Oct. 94 - present |
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Member, Organising Committee for Durham HERA Workshop |
Mar. 94 - Sep. 95 |
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Convener, Working Groups, HERA (Durham), DIS95 (Paris), HERA Future (DESY), DIS97 (Chicago), Low-x (Berlin), Low-x (Tel Aviv), Low-x (Oxford) Workshops |
Feb. 93 - Jul. 00 |
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Editor, IoP Conference Series Proceedings (J. Phys. G133) |
Dec. 92 - May 93 |
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Secretary, IoP Nuclear and Particle Physics Conference |
Apr. 91 - Apr. 93 |
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Member, 42nd SUSSP Summer School Organising Committee |
Apr. 91 - Aug. 93 |
As a lab head, I took various measures to improve teaching methods by devising a new series of experiments, rewriting all scripts, introducing improved methods of practice in preparing demonstrators and introducing computer control into the laboratory. As a class head of engineers’ classes and second year physics, I streamlined and integrated the presentation of the various courses and improved the tutorial systems. I have developed the use of computers in teaching within the department and contributed to various committees concerned with this development. I also contributed to the development of the Exploring the Cosmos course and served on the department’s teaching and postgraduate prize committees. As organiser of the department open days, I expanded them to present information on physics and astronomy courses to prospective students as well as give them opportunities to have hands-on experience in physics.
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Chairman, I.T. strategy committee |
Oct. 01 - present |
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Member, teaching committee |
Oct. 98 - Sep. 00 |
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Member, CESAR (Committee on Educational Strategy and Resource) |
Oct. 98 - Sep. 99 |
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Class head, P2 physics class |
Oct. 98 - Sep. 00 |
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Member, postgraduate prize committee |
Oct. 98 - Sep. 00 |
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Member, engineering faculty (ex officio) |
Oct. 96 - Sep. 97 |
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Class head, first-year engineers' physics classes |
Oct. 96 - Sep. 97 |
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Member, computing and I.T. review committees |
May 92 - present |
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Organiser, departmental open days |
Sep. 95 - Sep. 99 |
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Member, recruitment committee |
Sep. 95 - Sep. 99 |
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Member, P1/P2 staff-student committee |
Oct. 91 - Sep. 00 |
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Laboratory head, first-year engineers' physics laboratory |
May 91 - Sep. 96 |
Publications are in the field of experimental particle physics and associated Grid developments where collaborative papers are generally given alphabetical author listings. Papers highlighted below are those where I played a significant role as part of a large collaboration. Workshop reports and proceedings are recognised by their limited authorship and are an acknowledged way of communicating within the field. In addition to the limited authorship papers [13-25], I wrote three of the ZEUS collaboration papers [44, 46, 53]. I was either physics coordinator or chairman during 1993-97 when the most widely cited ZEUS papers were produced (marked as famous paper with more than 250 citations). I coordinated and contributed significantly to the analyses described in [31, 37-39, 42, 52, 54, 55, 57, 58, 60, 62-66, 80-108, 110, 112, 113, 123, 138, 145,184] as well as being on the ZEUS editorial boards for [41, 43, 47, 48, 50, 51, 59, 120, 122, 124, 133, 139, 143, 146, 149, 176, 209]. I led UK Grid developments from 2001-08 resulting in various technical and computing science publications [212-226]. My individual paper contribution to a total of more than 200 papers, as well as my research publication profile has increased significantly in the past fifteen years.
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Year |
1988 |
1989 |
1990 |
1991 |
1992 |
1993 |
1994 |
1995 |
1996 |
1997 |
1998 |
1999 |
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Publications |
2 |
1 |
2 |
4 |
8 |
7 |
6 |
20 |
13 |
13 |
14 |
10 |
|
Year |
2000 |
2001 |
2002 |
2003 |
2004 |
2005 |
2006 |
2007 |
|
Publications |
17 |
8 |
16 |
15 |
19 |
16 |
15 |
18 |
[1] A.T. Doyle, ‘Charged hadron production at large transverse momenta using high energy photon and hadron beams’, University of Manchester Ph.D. thesis, RALT-081 (1987).
[2] ‘Inclusive photoproduction of single charged particles at high pT’, Z. Phys. C43 (1989) 63-74.
[3] ‘A study of point-like interactions of the photon using energy-flows in photo- and hadro-production for incident energies between 65 and 170GeV’, Z. Phys. C46 (1990) 35-43.
[4] ‘Forward charge asymmetry in low- pT photoproduction of hadrons’, Z. Phys. C47 (1990) 397-400.
[5] ‘Separation of minimum and higher twist in high- pT photoproduction’, Z. Phys. C50 (1991) 179-184.
[6] ‘Inclusive production of po mesons in pp , Kp and gp collisions at energies around 100GeV’,
Z. Phys. C52 (1991) 397-405.
[7] ‘Comparison of photon and hadron induced production of ro mesons in the energy range of 65 to 175 GeV’, Z. Phys. C53 (1991) 581-594.
[8] ‘Inclusive production of ho mesons in pp, Kp and gp collisions at energies around 100GeV’, Z. Phys. C54 (1992) 185-191.
[9] ‘Production of f(1270) and f(975) mesons by photons and hadrons of energy 65GeV to 175GeV’, Z. Phys. C56 (1992) 185-192.
[10] ‘Photoproduction and hadroproduction of f(1020) and K*(892) and anti-K*(892) mesons in the energy range 65GeV to 175GeV’, Z. Phys. C61 (1994) 383-398.
[11] ‘e+e- pair creation by 40-150GeV photons incident near the <110> axis in a germanium crystal’, Phys. Lett. B202 (1988) 615-619.
[12] ‘Radiation from 170GeV electrons and positrons traversing thin Si and Ge crystals near the <110> axis’, Phys. Lett. B213 (1988) 242-246.
[13] A.T. Doyle, ‘Generators for HERA physics’, Proceedings of the Workshop on Jet Studies at LEP and HERA, J. Phys. G17 (1991) 1596-1599.
[14] N. Magnussen et al., ‘Deep Inelastic Scattering Generators’, Proceedings of the Workshop on HERA Physics, DESY report (1992) 1167-1219.
[15] N.H. Brook et al., ‘Photoproduction Generators’, Proceedings of the Workshop on HERA Physics, DESY report (1992) 1221-1254.
[16] N.H. Brook, A. De Roeck and A.T. Doyle, ‘RAYPHOTON version 2.0 - an interface for HERA Photoproduction Physics’, Proceedings of the Workshop on HERA Physics, DESY report (1992) 1453-1462.
[17] A.T. Doyle, G. Ingelman and M. Kuhlen, ‘Hadronic Final States - Overview of Sessions’, Proceedings of the Workshop on Deep Inelastic Scattering and QCD, Ecole Polytechnique Report (1995) 291.
[18] A.T. Doyle, ‘Diffraction at HERA: an experimental perspective’, Proceedings of the HERA Workshop on proton, photon and pomeron structure, J. Phys. G22 (1996) 797-813, GLAS-PPE/1996-01. *
[19] J. Blumlein et al. ‘Structure Functions in Deep Inelastic Scattering at HERA’, Proceedings of the Workshop on Future Physics at HERA, DESY report (1996) 3-12, GLAS-PPE/1996-07.
[20] E. A. De Wolf, A. T. Doyle, N. Varelas and D. Zeppenfeld, ‘QCD Effects in Hadronic Final States’, Proceedings of the DIS97 Workshop, AIP Proceedings 407 (1997) 175-196, GLAS-PPE/1997-02.
[21] A.T. Doyle, ‘Diffraction: QCD Effects in Colour Singlet Exchange’, Proceedings of the 25th SLAC Summer Institute SLAC-R-528 (1998) 463-487, GLAS-PPE/1997-13.
[22] A.T. Doyle, ‘Highlights and Open Questions from ZEUS’, Proceedings of the DIS98 Workshop, World Scientific Proceedings (1998) 39-59, GLAS-PPE/1998-03.
[23] A.T. Doyle, ‘Structure Functions’, Proceedings of the ICHEP98 Conference, World Scientific Proceedings (1999) 193-216, GLAS-PPE/1998-07.
[24] A.T. Doyle, ‘Event Shapes and Forward Jet Production at HERA’, Proceedings of the Hadron99 Conference, Nucl. Phys. A675 (2000) 349-352, GLAS-PPE/1999-14.
[25] A.T. Doyle, ‘Structure Functions at High Q2’, Proceedings of the CIPANP2000 Conference, American Institute of Physics Proceedings 549 (2000) 49-61, GLAS-PPE/2000-08.
[26] ‘A Measurement of stot(gp) at Ös = 210 GeV’, Phys. Lett. B293 (1992) 465-477. famous paper.
[27] ‘Observation of Hard Scattering in Photoproduction at HERA’, Phys. Lett. B297 (1992) 404-416.
[28] ‘Initial Study of DIS with ZEUS at HERA’, Phys. Lett. B303 (1993) 183-197.
[29] ‘Observation of Two-Jet Production in Deep Inelastic Scattering at HERA’, Phys. Lett. B306 (1993) 158-172.
[30] ‘Search for Leptoquarks with the ZEUS Detector’, Phys. Lett. B306 (1993) 173-186.
[31] ‘Hadronic Energy Distributions in Deep Inelastic Electron-Proton Scattering’, Z. Phys. C59 (1993) 231-242.
[32] ‘Search for Excited Electrons Using the ZEUS Detector’, Phys. Lett. B316 (1993) 207-218.
[33] ‘Observation of Events with a Large Rapidity Gap in Deep Inelastic Scattering at HERA’,
Phys. Lett. B315 (1993) 481-493. famous paper.
[34] ‘Measurement of the Proton Structure Function F2 in e-p Scattering at HERA’,
Phys. Lett. B316 (1993) 412-426. famous paper.
[35] ‘Observation of Direct Processes in Photoproduction at HERA’, Phys. Lett. B322 (1994) 287-299.
[36] ‘Measurement of Total and Partial Photon Proton Cross Sections at 180 GeV Center of Mass Energy’, Z. Phys. C63 (1994) 391-408. famous paper.
[37] ‘Observation of Jet Production in Deep Inelastic Scattering with a Large Rapidity Gap at HERA’, Phys. Lett. B332 (1994) 228-243.
[38] ‘Comparison of Energy Flows in Deep Inelastic Scattering With and Without a Large Rapidity Gap’, Phys Lett. B338 (1994) 483-496.
[39] ‘Measurement of the Proton Structure Function F2 from the 1993 HERA Data’, Z. Phys. C65 (1995) 379-398. famous paper.
[40] ‘A Search for Excited Fermions in Electron-Proton Collisions at HERA’, Z. Phys. C65 (1995) 627-647.
[41] ‘Inclusive Jet Differential Cross Sections in Photoproduction at HERA’, Phys. Lett. B342 (1995) 417-432.
[42] ‘Extraction of the Gluon Density of the Proton at Small x’, Phys. Lett. B345 (1995) 576-588.
[43] ‘Observation of Hard Scattering in Photoproduction Events with a Large Rapidity Gap at HERA’, Phys. Lett. B346 (1995) 399-414.
[44] ‘Measurement of Multiplicity and Momentum Spectra in the Current Region of the Breit Frame at HERA’, Z. Phys. C67 (1995) 93-107.
[45] ‘Study of D*(2010)± Production in ep Collisions at HERA’, Phys. Lett. B349 (1995) 225-237.
[46] ‘Jet Production in High Q2 Deep-Inelastic ep Scattering at HERA’, Z. Phys. C67 (1995) 81-92.
[47] ‘Dijet Cross Sections in Photoproduction at HERA’, Phys. Lett. B348 (1995) 665-680.
[48] ‘The Inclusive Transverse Momentum Distributions of Charged Particles in Diffractive and Non-Diffractive Photoproduction at HERA’, Z. Phys. C67 (1995) 227-237.
[49] ‘Measurement of the Cross Section for the Reaction g p® J/y p with the ZEUS Detector at HERA’, Phys. Lett. B350 (1995) 120-134.
[50] ‘Measurement of Charged and Neutral Current e-p Deep Inelastic Scattering Cross Sections at High Q2’, Phys. Rev. Lett. 75 (1995) 1006-1011.
[51] ‘Study of the Photon Remnant in Resolved Photoproduction at HERA’, Phys. Lett. B354 (1995) 163-177.
[52] ‘Neutral Strange Particle Production in Deep Inelastic Scattering at HERA’, Z. Phys. C68 (1995) 29-42.
[53] ‘Measurement of the Diffractive Structure Function in Deep Inelastic Scattering at HERA’,
Z. Phys. C68 (1995) 569-584.
[54] ‘Diffractive Hard Photoproduction at HERA and Evidence for the Gluon Content of the Pomeron’, Phys. Lett. B356 (1995) 129-146.
[55] ‘Exclusive ro Production in Deep Inelastic Electron-Proton Scattering at HERA’,
Phys. Lett. B356 (1995) 601-616.
[56] ‘Measurement of Elastic ro Photoproduction at HERA’, Z. Phys. C69 (1995) 39-54.
[57] ‘Measurement of as from Jet Rates in Deep Inelastic Scattering’, Phys. Lett. B363 (1995) 201-216.
[58] ‘Measurement of the Proton Structure Function F2 at low x and low Q2 at HERA’,
Z. Phys. C69 (1996) 607-620.
[59] ‘Rapidity Gaps between Jets in Photoproduction at HERA’, Phys. Lett. B369 (1996) 55-68.
[60] ‘Inclusive Charged Particle Distributions in Deep Inelastic Scattering Events at HERA’,
Z. Phys. C70 (1996) 1-15.
[61] ‘Measurement of Elastic f -Photoproduction at HERA’, Phys. Lett. B377 (1996) 259-272.
[62] ‘Measurement of the Diffractive Cross Section in Deep Inelastic Scattering’, Z. Phys. C70 (1996) 391-412.
[63] ‘Measurement of the Reaction g*p ® f p in Deep Inelastic Scattering at HERA’, Phys. Lett. B380 (1996) 220-234.
[64] ‘Measurement of the F2 Structure Function in Deep Inelastic e+p Scattering using 1994 Data from the ZEUS Detector at HERA’, Z. Phys. C72 (1996) 399-424. famous paper.
[65] ‘Observation of Events with an Energetic Forward Neutron in Deep Inelastic Scattering at HERA’, Phys. Lett. B384 (1996) 388-400.
[66] ‘Dijet Angular Distributions in Resolved and Direct Photoproduction at HERA’,
Phys. Lett. B384 (1996) 401-413.
[67] ‘Study of Charged-Current ep Interactions at Q2 > 200 GeV2 with the ZEUS Detector at HERA’, Z. Phys. C72 (1996) 47-64.
[68] ‘Measurement of Elastic w Photoproduction at HERA’, Z. Phys. C73 (1996) 73-84.
[69] ‘Search for Lepton Flavor Violation in ep Collisions at 300 GeV Center of Mass Energy’,
Z. Phys. C73 (1997) 613-628.
[70] ‘Study of Elastic ro Photoproduction at HERA using the ZEUS Leading Proton Spectrometer’, Z. Phys. C73 (1997) 253-268.
[71] ‘Comparison of ZEUS Data with Standard Model Predictions for e+p ® e+X’, Z. Phys. C74 (1997) 207-220. famous paper.
[72] ‘Differential Cross Sections of D*± Photoproduction in ep Collisions at HERA’, Phys. Lett. B401 (1997) 192-206.
[73] ‘Measurement of Elastic J/y Photoproduction at HERA’, Z. Phys. C75 (1997) 215-228.
[74] ‘Study of Photon Dissociation in Diffractive Photoproduction at HERA’, Z. Phys. C75 (1997) 421-435.
[75] ‘D* Production in Deep Inelastic Scattering at HERA’, Phys. Lett. B407 (1997) 402-418.
[76] ‘A Search for Excited Fermions in e+p Collisions at HERA’, Z. Phys. C76 (1997) 631-646.
[77] ‘Measurement of the Proton Structure Function F2 and stotg*p at low Q2 and very low x at HERA’, Phys. Lett. B407 (1997) 432-448.
[78] ‘Observation of Isolated High ET Photons in Photoproduction at HERA’, Phys. Lett. B413 (1997) 201-216.
[79] ‘Measurement of Inelastic J/y Photoproduction at HERA’, Z. Phys. C76 (1997) 599-612.
[80] ‘Observation of Scaling Violations in Scaled Momentum Distributions at HERA’, Phys. Lett. B414 (1997) 428-443.
[81] ‘Measurement of the Diffractive Structure Function F2D(4) at HERA’, Euro. Phys. C1 (1998) 81-96.
[82] ‘Dijet Cross Sections in Photoproduction at HERA’, Euro. Phys. C1 (1998) 109-122.
[83] ‘Measurement of Jet Shapes in Photoproduction at HERA’, Euro. Phys. C2 (1998) 61-76.
[84] ‘Event Shape Analysis of Deep Inelastic Scattering Events with a Large Rapidity Gap at HERA’, Phys. Lett. B421 (1998) 368-384.
[85] ‘Charged Particles and Neutral Kaons in Photoproduced Jets at HERA’, Euro. Phys. C2 (1998) 77-93.
[86] ‘Measurement of the t Distribution in Diffractive Photoproduction at HERA’, Euro. Phys. C2 (1998) 237-246.
[87] ‘Elastic and Proton-Dissociative ro Photoproduction at HERA’, Euro. Phys. C2 (1998) 247-267.
[88] ‘High-ET Inclusive Jet Cross Sections in Photoproduction at HERA’, Euro. Phys. C4 (1998) 591-606.
[89] ‘Measurement of Jet Shapes in High Q2 Deep Inelastic Scattering at HERA’, Euro. Phys. C8 (1999) 367-380.
[90] ‘Diffractive Dijet Cross Sections in Photoproduction at HERA’, Euro. Phys. C5 (1998) 41-56.
[91] ‘Forward Jet Production in Deep Inelastic Scattering at HERA’, Euro. Phys. C6 (1999) 239-252.
[92] ‘Search for Selectron and Squark Production in e+p Collisions at HERA’, Phys. Lett. B434 (1998) 214-230.
[93] ‘Measurement of the Diffractive Cross Section in Deep Inelastic Scattering using ZEUS 1994 Data’, Euro. Phys. C6 (1999) 43-66.
[94] ‘Measurement of Inclusive D*± and associated Dijet Cross Sections in Photoproduction at HERA’, Euro. Phys. C6 (1999) 67-83.
[95] ‘Measurement of Elastic ¡ Photoproduction at HERA’, Phys. Lett. B437 (1998) 432-444.
[96] ‘Exclusive Electroproduction of ro and J/y Mesons at HERA’, Euro. Phys. C6 (1999) 603-627.
[97] ‘ZEUS Results on the Measurement and Phenomenology of F2 at Low x and Low Q2’,
Euro. Phys. C7 (1999) 609-630.
[98] ‘Measurement of Three-Jet Distributions in Photoproduction at HERA’, Phys. Lett. B443 (1998) 394-408.
[99] ‘Measurement of Multiplicity and Momentum Spectra in the Current and Target Regions of the Breit Frame in Deep Inelastic Scattering at HERA’, Euro. Phys. C11 (1999) 2, 251-270.
[100] ‘W Production and the Search for Events with an Isolated High-Energy Lepton and Missing Transverse Momentum at HERA’, Phys. Lett. B471 (2000) 411-428.
[101] ‘Measurement of High Q2 Neutral Current e+p Deep Inelastic Scattering Cross Sections at HERA’, Euro. Phys. C11 (1999) 3, 427-445.
[102] ‘Measurement of Dijet Photoproduction at High Transverse Energies at HERA’, Euro. Phys. C11 (1999) 1, 35-50.
[103] ‘Search for Contact Interactions in Deep Inelastic e+p ® e+X Scattering at HERA’, Euro. Phys. C14 (2000) 2, 239-254.
[104] ‘Measurement of High Q2 Charged-Current e+p Deep Inelastic Scattering Cross Sections at HERA’, Euro. Phys. C12 (2000) 3, 411-428.
[105] ‘Angular and Current-Target Correlations in Deep Inelastic Scattering at HERA’, Euro. Phys. C12 (2000) 1, 53-68.
[106] ‘Measurement of D*± Production and the Charm Contribution to F2 in Deep Inelastic Scattering at HERA’, Euro. Phys. C12 (2000) 1, 35-52.
[107] ‘Measurement of the Spin-Density Matrix Elements in Exclusive Electroproduction of roMesons at HERA’, Euro. Phys. C12 (2000) 3, 393-410.
[108] ‘Measurement of diffractive photoproduction of vector mesons at large momentum transfer at HERA’, Euro. Phys. C12 (2000) 2, 213-238.
[109] ‘Measurement of inclusive prompt photon photoproduction at HERA’, Phys. Lett B472 (2000) 175-188.
[110] ‘Measurement of the ET2,jet / Q2 dependence of forward jet production at HERA’, Phys. Lett. B474 (2000) 223-233.
[111] ‘The Q2 Dependence of Dijet Cross Sections in gp Interactions at HERA’, Phys. Lett. B479 (2000) 37-52.
[112] ‘Search for Resonances Decaying to e+-jet in e+p Interactions at HERA’, Euro. Phys. C16 (2000) 2, 253-267.
[113] ‘Measurement of Azimuthal Asymmetries in Deep Inelastic Scattering’, Phys. Lett. B481 (2000) 199-212.
[114] ‘Measurement of Inclusive Ds± Photoproduction at HERA’, Phys. Lett. B481 (2000) 213-227.
[115] ‘Measurement of the Proton Structure Function F2 at very low Q2 at HERA’, Phys. Lett. B487 (2000) 53-73.
[116] ‘Measurement of Exclusive w Electroproduction at HERA’, Phys. Lett. B487 (2000) 273-288.
[117] ‘A Search for Resonance Decays to n-jet in ep Scattering at HERA’, Phys. Rev. D63 (2001) 5, 052002.
[118] ‘Measurement of Dijet Cross Sections for Events with a Leading Neutron in Photoproduction at HERA’, Nucl. Phys. B596 (2001) 3-29.
[119] ‘Measurement of open beauty production in photoproduction at HERA’, Euro. Phys. C18 (2001) 625-637.
[120] ‘Measurement of dijet production in neutral current deep inelastic scattering at high Q2and determination of as’, Phys. Lett. B507 (2001) 70-88.
[121] ‘Study of the effective transverse momentum of partons in the proton using prompt photons in photoproduction at HERA’, Phys. Lett. B511 (2001) 19-32.
[122] ‘Multiplicity moments in deep inelastic scattering at HERA’, Phys. Lett. B510 (2001) 36-54.
[123] ‘Measurement of the neutral current cross section and F2 structure function for deep inelastic e+p scattering at HERA’, Euro. Phys. C21 (2001) 443-471.
[124] ‘Three-jet production in diffractive deep inelastic scattering at HERA’, Phys. Lett. B516 (2001) 273-292.
[125] ‘Properties of hadronic final states in diffractive deep inelastic scattering at HERA’, Phys. Rev. D65 (2002) 18pp.
[126] ‘Dijet production in neutral current deep inelastic scattering at HERA’, Euro. Phys. C23 (2002) 13-27.
[127] ‘Searches for excited fermions in ep collisions at HERA’, Phys. Lett. B549 (2002) 32-47.
[128] ‘Measurement of the photon-proton total cross section at a center-of-mass energy of 209 GeV at HERA’, Nucl. Phys. B627 (2002) 3-28.
[129] ‘High-mass dijet cross sections in photoproduction at HERA’, Phys. Lett. B531 (2002) 9-27.
[130] ‘Dijet photoproduction at HERA and the structure of the photon’, Euro. Phys. C23 (2002) 615-631.
[131] ‘Search for lepton-flavor violation in e+p collisions at HERA’, Phys. Rev. D65 (2002) 16pp.
[132] ‘Exclusive photoproduction of J/y mesons at HERA’, Euro. Phys. C24 (2002) 345-360.
[133] ‘Measurement of the Q2 and energy dependence of diffractive interactions at HERA’, Euro. Phys. C25 (2002) 169-187.
[134] ‘Leading neutron production in e+p collisions at HERA’, Nucl. Phys. B637 (2002) 3-56.
[135] ‘Measurement of high-Q2 charged current cross sections in e-p deep inelastic scattering at HERA’, Phys. Lett. B539 (2002) 197-217, Erratum: Phys. Lett. B552 (2003) 308.
[136] ‘Measurement of proton-dissociative diffractive photoproduction of vector mesons at large momentum transfer at HERA’, Euro. Phys. C26 (2003) 389-409.
[137] ‘Measurement of diffractive production of D*± (2010) mesons in deep inelastic scattering at HERA’, Phys. Lett. B545 (2002) 242-260.
[138] ‘ZEUS next-to-leading-order QCD analysis of data on deep inelastic scattering’, Phys. Rev. D67 (2002) 20pp.
[139] ‘Inclusive jet cross sections in the Breit frame in neutral current deep inelastic scattering at HERA and determination of as’, Phys. Lett. B547 (2002) 164-180.
[140] ‘Measurement of high-Q2 e-p neutral current cross sections at HERA and the extraction of xF3’, Euro. Phys. C28 (2003) 175-201.
[141] ‘Leading proton production in e+p collisions at HERA’, Nucl. Phys. B658 (2003) 3-46.
[142] ‘Measurements of inelastic J/y and y’ photoproduction at HERA’, Euro. Phys. C27 (2003) 173-188.
[143] ‘Study of the azimuthal asymmety of jets in neutral current deep inelastic scattering at HERA’, Phys. Lett. B551 (2003) 226-240.
[144] ‘Observation of the strange sea in the proton via inclusive c-meson production in neutral current deep inelastic scattering at HERA’, Phys. Lett. B553 (2003) 141-158.
[145] ‘Measurement of event shapes in deep inelastic scattering at HERA’, Euro. Phys. C27 (2003) 531-545.
[146] ‘Measurement of subjet multiplicities in neutral current deep inelastic scattering at HERA and determination of as’, Phys. Lett. B558 (2003) 41-58.
[147] ‘Scaling violations and determination of as from jet production in gp interactions at HERA’, Phys. Lett. B560 (2003) 7-23.
[148] ‘Search for single-top production in ep collisions at HERA’, Phys. Lett. B559 (2003) 153-170.
[149] ‘Dijet angular distributions in photoproduction of charm at HERA’, Phys. Lett. B565 (2003) 87-101.
[150] ‘A search for resonance decays to lepton+jet at HERA and limits on leptoquarks’, Phys. Rev. D68 (2003) 15pp.
[151] ‘Jet production in charged current deep inelastic e+p scattering at HERA’, Euro. Phys. C31 (2003) 149-164.
[152] ‘Measurement of deeply virtual Compton scattering at HERA’, Phys. Lett. B573 (2003) 46-62.
[153] ‘Measurement of high- Q2 charged current cross sections in e+p deep inelastic scattering at HERA’, Euro. Phys. C32 (2003) 1-16.
[154] ‘Measurement of the open-charm contribution to the diffractive proton structure function’, Nucl. Phys. B672 (2003) 3-35.
[155] ‘Observation of K0sK0s resonances in deep inelastic scattering at HERA’, Phys. Lett. B578 (2004) 33-44.
[156] ‘Measurement of D*± production in deep inelastic e±p scattering at HERA’, Phys. Rev. D69 (2004) 17pp.
[157] ‘Bose-Einstein correlations in one and two dimensions in deep inelastic scattering’, Phys. Lett. B583 (2004) 231-246.
[158] ‘Isolated tau leptons in events with large missing transverse momentum at HERA’, Phys. Lett. B583 (2004) 41-58.
[159] ‘Search for QCD-instanton induced events in deep inelastic ep scattering at HERA’, Euro. Phys. C34 (2004) 255-265.
[160] ‘Bottom photoproduction measured using decays into muons in dijet events in ep collisions at Ös = 318 GeV’, Phys. Rev. D (2004) 15pp.
[161] ‘High- Q2 neutral current cross section in e+p deep inelastic scattering at Ös =318 GeV’, Phys. Rev. D70 (2004) 37pp.
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[163] ‘Photoproduction of D*± Mesons Associated with a Leading Neutron’, Phys. Lett. B590 (2004) 143-160.
[164] ‘Observation of isolated high-ET photons in deep inelastic scattering’, Phys. Lett. B595 (2004) 86-100.
[165] ‘Study of the pion trajectory in the photoproduction of leading neutrons at HERA’, Phys. Lett. B610 (2005) 199-211.
[166] ‘Exclusive electroproduction of J/y mesons at HERA’, Nucl. Phys. B695 (2004) 3-37.
[167] ‘The dependence of dijet production on photon virtuality in ep collisions at HERA’, Euro. Phys. C35 (2004) 487-500.
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[169] ‘Measurement of beauty production in deep inelastic scattering at HERA’, Phys. Lett. B599 (2004) 173-189.
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[171] ‘Dissociation of virtual photons in events with a leading proton at HERA’, Euro. Phys. C38 (2004) 43-67.
[172] ‘Search for a narrow charmed baryonic state decaying to D*± p in ep collisions at HERA’, Euro. Phys. C38 (2004) 29-41.
[173] ‘Study of deep inelastic inclusive and diffractive scattering with the ZEUS forward plug calorimeter’, Nucl. Phys. B713 (2005) 3-80.
[174] ‘Search for pentaquarks decaying to Îp in deep inelastic scattering at HERA’, Phys. Lett. B610 (2005) 212-224.
[175] ‘Search for lepton-flavor violation at HERA’, European Physical Journal C44 (2005) 463-479
[176] ‘Multijet production in neutral current deep inelastic scattering at HERA and determination of as’, European Physical Journal C44 (2005) 183-193
[177] ‘Forward jet production in deep inelastic ep scattering and low-x parton dynamics at HERA’, Physics Letters B 632 (2006) 13-26
[178]
‘Exclusive
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[179]
‘An NLO QCD Analysis of Inclusive Cross-Section
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Physical Journal C42 (2005) 1-16
[180]
‘Measurement of Inelastic J/y Production in
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‘Inclusive Jet Cross Sections and Dijet
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‘Measurement of Charm Fragmentation Ratios and
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‘Event Shapes in Deep Inelastic Scattering at
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‘Measurement of Neutral Current Cross Sections
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[186]
‘Measurement of Prompt Photons with Associated
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[187]
‘Inclusive-Jet and Dijet Cross Sections in Deep
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‘Measurement of Azimuthal Asymmetries in Neutral
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[189]
‘Search for stop production in
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[190]
‘Measurement of open beauty production at HERA
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‘Photoproduction of Events with Rapidity Gaps between
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Physical Journal C 50 (2007) 283-297
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‘Measurement of K0s, L and Anti-L
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‘Jet-radius
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[194]
‘Leading Neutron Energy and PT
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‘Three- and Four-Jet Final States in
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[I] JREI/SHEFC ‘The LHC Computing Challenge for Scotland’,
(submitted May 2000, approved December 2000):
http://ppewww.ph.gla.ac.uk/~doyle/JREI/ScotGrid.doc
[II] PPARC ‘GridPP: The UK Grid for Particle Physics’, (From Web to Grid),
(submitted April 2001, approved July 2001):
http://ppewww.ph.gla.ac.uk/~doyle/GridPP/GridPP.doc (.htm)
http://ppewww.ph.gla.ac.uk/~doyle/GridPP/addendum.doc (.htm)
[III] EPSRC ‘Proposal to establish the National UK e-Science Centre in Edinburgh’,
(submitted June 2001, approved July 2001).
[IV] PPARC ‘GridPP: The UK Grid for Particle Physics’ (From Prototype to Production),
(submitted May 2003, approved December 2003):
http://www.gridpp.ac.uk/docs/gridpp2/
[V] PPARC ‘The Grid for LHC Exploitation’,
(submitted August 2005):
http://www.gridpp.ac.uk/pmb/docs/LHC_Exploitation_Grid.doc
[VI] PPARC ‘GridPP: The UK Grid for Particle Physics’ (From Production to Exploitation),
(submitted June 2006, approved December 2006):
http://www.gridpp.ac.uk/docs/gridpp3/
[VII] SFC ‘Scottish Grid Service (ScotGrid)’,
(EoI submitted May 2006, proposal submitted August 2007):
http://www.scotgrid.ac.uk/phase2/SRDG/
[1] Citation data should be interpreted with care. The context is summarised in the Publications section.
*Glasgow PPE preprints are available from http://www.gla.ac.uk/physics/ppe/preprints
* ZEUS Collaboration papers are available from http://www-zeus.desy.de/zeus_papers/zeus_papers.html