CURRICULUM VITAE — Prof. Terry Wyatt FRS

Born: 29th June 1957, Watford, England. Nationality: British. Family Status: Married, with two sons. Employment History

Tenured Physics Faculty: School of Physics and Astronomy, , UK.

– Professor (2004–present) [DØ and ATLAS experiments] – Reader (1999–2004) [OPAL and DØ experiments] – Lecturer (1996–1999) [OPAL experiment] – Senior visiting appointments, on leave from usual academic duties at University of Manchester: Guest Scientist, : 15 month period as Paid Guest Scientist at Fermilab (2002–2003) PPARC Senior Research Fellowship: 3-year period (2003-2006) STFC support for DØ spokesperson: 100% salary buy-out for 18 month period (2006–2007). As spokesperson of DØ I also received financial support from Fermilab. – I currently serve as Chair of the Accelerator, Nuclear and Division of the School of Physics and Astronomy, with overall responsibility for both experimental and theoretical aspects of these fields.

PPARC Advanced Research Fellow: Based at CERN with University of Manchester, UK. (1989–1996). [OPAL experiment].

PPARC Research Associate: QMC, University of London, UK. (1986–1989). [OPAL experiment]

CERN Fellow: CERN, Geneva, Switzerland. (1984–1986). [UA1 experiment] Education

Research Student: University of Oxford, UK. (1979–1983). [TASSO experiment] Degree: D.Phil.

Undergraduate Student in Physics: Imperial College, University of London, UK. (1976–1979). Degree: B.Sc. (Ist class hons. Awarded governors’ prize for top first in physics, 1979). Associateship of the Royal College of Science (A.R.C.S). Fellowships and Prizes

• Elected as Fellow of the Royal Society, FRS (2013). Excerpt from citation: “Distinguished for a number of original and important contributions to the experimental verification of the ”.

• Chadwick medal and prize of the Institute of Physics (2011). Short citation: “For his outstanding contributions to Hadron Collider Physics”. Service to International Particle Physics Community

• Member of the CERN Scientific Policy Committee(SPC) (2007–present).

• Member of the UK Committee on CERN1 (UKCC) (2007–present).

• Member of the Editorial Boards of the European Physical Journal C (EPJC) (2010–present) and Progress of Theoretical and Experimental Physics (PTEP)(2012–present).

• Member of review panel for Institut de Recherche sur les lois Fondamentales de l’Univers (IRFU, CEA, Saclay) conducted by Agence d’Evaluation de la Recherche et des ´etablissements d’Enseignement Sup´erieur (AERES) (2014).

• Chair of the LHC experiments Committee(LHCC), CERN (2007–2010).

1With members from government (BIS), the research council (STFC) and the academic community, the UKCC advises the UK government and the UK delegates to the CERN Council and Finance Committee. • Member of the CERN Research Board(2007–2010). • Active referee for the journals Physical Review Letters and Physical Review D (1992–present), Journal of High Energy Physics and Physics Letters B (2011–present). • Member of the international review panel for the Helmholtz Alliance “Physics at the Terascale” (DESY, Hamburg, 2010). • Member and sub-committee chair of Fermilab Director’s Task Force on the Collider Experi- ments (2005–2006). Talks to PPAP (UK: 2005), P5 committee of HEPAP (US: 2006), Fermilab Board of Visitors (US: 2007). • Member of the LHCC (2003–2005). • Membership of International Organizing/Advisory Committees: 34th International Conference on High Energy Physics (ICHEP08: Philadelphia, PA, 2008); Topical Conference on Hadron Collider Physics (Galena, Illinois, 2008; Elba, Italy, 2007; Duke University, 2006; Les Diablerets, 2005; Michigan State University, 2004); CERN workshop “Physics at LEP2” (1996). • Convener of the Electroweak physics parallel sessions at the XXXIIIrd International Conference on High Energy Physics, ICHEP06. Moscow, 2006. • Member of the three-person panel that referees UK applications for CERN Fellowships (1997–2000). Current Research Interests My current research focuses on the interplay between electroweak and QCD physics at hadron colliders and involves close contact between experimental measurements and particle physics phenomenology. For example, I have invented novel techniques for studying the transverse momentum of Z/γ∗ bosons at hadron colliders. Precise measurements I have made using DØ data have stimulated considerable interest in the theoretical and experimental communities. I am currently extending these measurements using data from both DØ and ATLAS, and also applying these techniques, for the first time, in the di-photon final state. The start of run 2 of the LHC offers considerable discovery potential for physics beyond the standard model (BSM). My preparations are focussing on the production of BSM particles via the electroweak interaction (in the so-called “vector boson fusion” processes). The relatively clean experimental signatures allow remarkable sensitivity to a wide variety of BSM physics that are unobservable at a hadron collider using more standard techniques.

ATLAS Experiment at the CERN LHC (2011–present) • Leader of the Manchester group on ATLAS (2014–present). • Contributions to the ATLAS Luminosity measurement: determination of the LHC beam profiles using van der Meer scans; invention and calibration of a new Luminosity measurement by counting tracks; design of a Run 2 Luminosity measurement using the newly-installed diamond beam monitor system.

DØ Experiment at the Tevatron pp Collider at Fermilab (1998–present) • Spokesperson of the DØ Collaboration: I was leader or “spokesperson” of the 700 physicist-strong DØ Collaboration from 2004–2007. DØ operated at what was then the world’s highest energy accel- erator, the Tevatron pp Collider at Fermilab. I carried responsibility for and had executive authority over all aspects of the work of the DØ Collaboration: scientific, technical, political and financial. I determined appointments to all other positions of senior management responsibility within the Col- laboration. Of the more than 2000 physicists who had at that time been members of DØ during its 20-year history, I was only the sixth to be elected as spokesperson. I was the first person working for a non-US institute ever to have served in this role. During my term as spokesperson the DØ Collab- oration published around 80 papers in peer reviewed journals and presented more than 500 talks at international conferences, and around ∼100 PhDs were awarded for work with DØ. Scientific highlights from this period included DØ becoming the first experiment to find evidence for (a) the oscillations of Bs mesons, (b) the single production of top quarks, and (c) the existence of the Ξb baryon. Also during my term as spokesperson DØ underwent a highly successful $20M detector and trigger upgrade and more than quadrupled (from 0.6 to 2.8 fb−1) its collected data set.

2 • Primary author of the following results with DØ: first observation of ZZ boson pair production at a hadron collider; world’s best measurements of the cross sections for WZ and ZZ boson pair production; measurement of the transverse momentum distribution of Z/γ∗ bosons with unprecedented precision using a novel technique; measurement of the cross section times branching ratio for Z boson production; determination of the ratio of the W and Z production cross sections.

• Leader of the DØ electroweak physics working group2 (2003–2004).

• UK spokesperson and budget holder for DØ (2003–2004).

• Chair of the DØ Institutional Board3 (2002–2003).

• Convenor of the DØ Level-3 trigger algorithms working group (2002–2003). [Paid as a Fermilab Guest Scientist.]

• Membership of other high-level DØ committees: Speakers’ Bureau4 (2004–2008); International Finance Committee (2003–2007); Advisory Council5 (2002–2003); Institutional Board (1998–present).

• Founder and leader of the Manchester group on DØ (1998–present). Supervisor to eight PhD students on DØ.

• In collaboration with , I obtained approval and funding for the participation of UK groups in DØ (1998–1999). We were subsequently joined by a group from Lancaster University.

• PI on the following grants for research on DØ: 3-year PPARC “Spokesperson’s RA” (2005–2008); 3- year PPARC Senior Research Fellowship (2003-2006); 3-year PPARC “Responsive RA” (2000–2003); JREI-funded PC farm in Manchester for DØ (2001).

• Founder member of the Tevatron Electroweak Physics Working Group (TeVEWWG).6

− OPAL Experiment at the e+e Collider LEP at CERN (1986–2001)

• Physics Coordinator7 of the OPAL experiment (1992–1994).

• Principal author for selection of events containing isolated leptons and missing energy at LEP2: mea- surement of the cross section and leptonic branching ratios in W+ W− → ℓ+νℓ−ν and limits on the pair production of sleptons, charginos and charged Higgs bosons. Supervisor to three Manchester PhD students on OPAL.

• Major contributor to precision tests of the electroweak theory from the combined analysis of the hadronic and leptonic decays of the Z0 at LEP1.

• Coordinator and principal author of the cross section and forward-backward asymmetry measurements in lepton pair events at LEP1.

• Leading contributor to discussions on the running strategy for LEP and active participant in the group that measured the energy of the circulating beams in LEP.

• Proposer and principal author of the “physics pre-selection” for OPAL. This offline event filter defined the dataset used as the starting point for all OPAL physics analyses at LEP1.

2Electroweak physics was one of the six high-level working groups into which the scientific work of the DØ collaboration was organized. 3The DØ Institutional Board is the governing body of the international collaboration. 4The DØ collaboration is typically invited to present around 300 talks per annum at international conferences. The ten- member Speakers’ Bureau has the responsibility to assign these conference talks to qualified and deserving members of DØ. 5The seven-member Advisory Council is elected by the entire DØ collaboration; its role is to facilitate discussion between the collaboration and the spokespersons and to provide advice on contentious issues. 6The TeVEWWG brings together representatives from the CDF and DØ experiments to combine their results in the area of electroweak physics. 7The Physics Coordinator leads all aspects of the analysis of the data, the internal review of the obtained scientific results and their dissemination outside the collaboration.

3 • OPAL data taking: deputy run coordinator for around ten 2–4 week periods; leading proposer and developer of detector performance and data quality checks for offline physics analysis and online data taking; designed and wrote a WWW-based documentation system for the OPAL shift leaders.

• High precision vertex drift chamber of OPAL: developed reconstruction and calibration software; led the analysis of pre-installation test data; performed investigations into the feasibility of using ‘slow’ gases (e.g., CO2) in high precision drift chambers.

UA1 experiment at the SPS pp Collider at CERN (1984–1986)

• Coordinator and principal author of an improved search for the semi-leptonic decay of the top quark:

– Demonstrated that the events originally interpreted by UA1 as evidence for the top quark were, in fact, consistent with b quark background. – Measurement of the cross section and properties of b quark production in pp collisions.

• Led the design and implementation of the offline software for the UA1 muon detector upgrade. Eval- uated efficiency and resolution of the upgraded system.

+ − TASSO Experiment at the e e Collider PETRA at DESY (1979–1983)

• Invented new algorithms both for the selection of bb events and for distinguishing the quark and anti- quark jets in these events. Applied these algorithms to data collected by TASSO and made the first observation of the bb forward-backward charge asymmetry in e+e− annihilation (arising from Z0/γ interference). Major Invited Reviews

Future Accelerators for Higgs Physics and Beyond. • Invited plenary review talk at the Royal Society Discussion Meeting: Before, behind and beyond the discovery of the Higgs Boson. (London, January 2014) [To appear in Philosophical Transactions of the Royal Society A].

Future Facilities in High Energy Frontier and Flavour Physics. • Invited plenary review talk at the Open Symposium on European Strategy for Particle Physics. (Krakow, September 2012).

Review of Experimental Particle Physics. • 8 Invited plenary review talk at the 2011 ICFA Seminar . (CERN, October 2011).

High-Energy Colliders and the Rise of the Standard Model. • T.R. Wyatt, Nature 448 Issue 7151 (2007) 274–280.

Review of Electroweak Measurements. • Invited plenary review talk at the 2007 Europhysics Conference on High Energy Physics. (Manchester, July 2007).

Electroweak Measurements from Run II at the Tevatron. • Invited plenary review talk at XXIth International Symposium on Lepton and Photon Interactions at High Energies. (Fermilab, July 2003). [Proceedings, ed. H. Cheung and T. Pratt, World Scientific].

Major contributions to early careers of excellent researchers

I have supervised 12 Manchester PhD students to completion. All of these have taken up research positions upon graduating and most are still in the field of particle physics (two are medical research scientists and one works in climate science). Four of these students have won the Rutherglen Prize, which is awarded annually to the best particle physics PhD student at the Universities of Glasgow, Lancaster, Liverpool, Manchester and Sheffield. Five have been awarded CERN fellowships, and so far three have been offered tenured university positions or “tenure-track” research fellowships, such as a Royal Society University Research Fellowship or an STFC Advanced Fellowship. My most recently completed PhD student was named by the Faculty of Engineering and Physical Sciences of the University of Manchester as its PhD student of the year. He was

8The International Committee for Future Accelerators (ICFA) organizes once every three years a week-long ‘seminar’ to review the status of the field and plans for future accelerators and experimental facilities.

4 also awarded a Springer PhD prize. I currently supervise or jointly-supervise seven PhD students and one MSc (by research) student. Over the seven years years since I became spokesperson of DØ I estimate that I have sent around 1000 letters of reference on behalf of research colleagues, supporting their applications for research fellowships, postdoctoral positions, lectureships, tenure-track and tenured professorships. Over this period around 70 postdoctoral researchers for whom I have written letters of reference have obtained tenured or “tenure-track” positions in major research intensive universities or world-leading research laboratories. I am typically invited around 10 times a year by research intensive universities and research organizations of international standing in, e.g., Canada, France, Germany, Greece, Spain, Switzerland, UK and US to act as a referee or external assessor for senior staff appointments/promotions to the rank of full professor or equivalent. Public Understanding of Science

In 1996 I was one of a small group of founder members of the UK “Particle Physics Masterclasses” initiative that has subsequently spread throughout the world. I am author of the interactive web site based on events from the OPAL experiment: http://www.hep.manchester.ac.uk/u/events/ “Identifying particle physics events” that has been used by tens of thousands of students at outreach events throughout Europe and the US. Under the auspices of the European Particle Physics Outreach Group (EPPOG) this site has been translated into five European languages and been updated with the inclusion of events from the ATLAS experiment. I have given invited public lectures at UK national conferences organized by the British Association for the Advancement of Science, the Association of Science Education, and the Institute of Physics. I have given lectures on four separate occasions at the Royal Institution, London, and at numerous other outreach events at universities and schools. I have written articles for the Times Higher Education Supplement, Symmetry Magazine, Fermilab Today, and the CERN Courier. I have been interviewed about particle physics many times on the television, radio and in the press (Austria, Germany, Italy, UK, US) and taken part in panel discussions (e.g., at the Royal Society, London and the Museum of Science and Industry, Manchester. In collaboration with detector physicists and undergraduate students in Manchester I developed a detector for public demonstration using silicon detector modules of the kind used in the ATLAS experiment. Selected publications:

− 1. A Measurement of the WZ and ZZ Production Cross Sections using Leptonic Final States in 8.6 fb 1 of pp¯ Collisions. DØ Collaboration, V. M. Abazov et al., Phys. Rev. D85 (2012) 112005.

∗ 2. Precise Study of the Z/γ Boson Transverse Momentum Distribution in pp¯ Collisions Using a Novel Technique. DØ Collaboration, V. M. Abazov et al., Phys. Rev. Lett. 106 122001 (2011).

3. Optimisation of Variables for Studying Dilepton Transverse Momentum Distributions at Hadron Colliders. A. Banfi, S. Redford, M. Vesterinen, P. Waller, T. R. Wyatt, Eur. Phys. J. C 71 1600 (2011).

− 4. Search for the Standard Model Higgs Boson in the ZH ννb¯ ¯b Channel in 5.2 1 of pp¯ Collisions at √s =1.96 TeV. → Phys. Rev. Lett. 104 (2010) 071801.

5. A Novel Technique for Studying the Z Boson Transverse Momentum Distribution at Hadron Colliders. M. Vesterinen and T. R. Wyatt, Nucl. Instr. and Meth. A602 (2009) 432-437.

− 6. ZZ ℓ+ℓ νν Production in pp¯ Collisions at √s =1.96 TeV. → DØ Collaboration, V. M. Abazov et al., Phys. Rev. D78 (2008) 072002.

7. Observation of ZZ Production in pp¯ Collisions at √s =1.96 TeV. DØ Collaboration, V. M. Abazov et al., Phys. Rev. Lett. 101 (2008) 171803.

− − 8. Measurement of the e+e W+W cross section and W decay fractions at LEP. → OPAL Collaboration, G. Abbiendi et al., Eur.Phys.J. C52 (2007) 767–785. DØ Collaboration, V. M. Abazov et al., Phys. Rev. Lett. 97 (2006) 021802.

9. Search for Chargino and Neutralino Production at √s = 192 209 GeV at LEP. − OPAL Collaboration, G. Abbiendi et al., Eur.Phys.J. C35 (2004) 1–20.

− 10. Search for Anomalous Production of Di-Lepton Events with Missing Transverse Momentum in e+e Collisions at √s = 183 209 GeV. − OPAL Collaboration, G. Abbiendi et al., Eur. Phys J. C32 (2004) 453–473.

11. Precise Determination of the Z Resonance Parameters at LEP: Zedometry. OPAL Collaboration, G.Abbiendi et al., Eur. Phys. J. C19 (2001) 587–651.

5 12. Search for Chargino and Neutralino Production at √s = 189 GeV at LEP. OPAL Collaboration, G. Abbiendi et al., Eur. Phys. J. C14 (2000) 187–198.

− 13. Search for Anomalous Production of Acoplanar Di-Lepton Events in e+e Collisions at √s = 183, and 189 GeV. OPAL Collaboration, G. Abbiendi et al., Eur. Phys. J. C14 (2000) 51–71.

− − 14. W+W Production Cross Section and W Branching Fractions in e+e Collisions at 189 GeV. OPAL Collaboration, G. Abbiendi et al., Phys. Lett. B493 (2000) 249–265.

− 15. Search for Acoplanar Lepton Pair Events in e+e Collisions at √s = 161, 172 and 183 GeV. OPAL Collaboration, G. Abbiendi et al., Eur. Phys. J. C12 (2000) 551–565.

16. Search for Chargino and Neutralino Production at √s = 181–184 GeV at LEP. OPAL Collaboration, G. Abbiendi et al., Eur. Phys. J. C8 (1999) 255–272.

17. Search for Higgs Bosons in e+e- Collisions at 183 GeV. OPAL Collaboration, G. Abbiendi et al., Eur. Phys. J. C7 (1999) 407–435.

18. Calibration of Centre-of-Mass Energies at LEP1 for Precise Measurements of Z Properties. R. Assmann et al., Eur. Phys. J. C6 (1999) 187–223.

− 19. Search for Anomalous Production of Di-lepton Events with Missing Transverse Momentum in e+e Collisions at √s = 161 and 172 GeV. OPAL Collaboration, K. Ackerstaff et al., Eur. Phys. J. C4 (1998) 47–74.

20. Search for Chargino and Neutralino Production at √s = 170 and 172 GeV at LEP. OPAL Collaboration, K. Ackerstaff et al., Eur. Phys. J. C2 (1998) 213–236.

− − 21. Measurement of the W Boson Mass and W+W Production and Decay Properties in e+e Collisions at √s=172 GeV. OPAL Collaboration, K. Ackerstaff et al., Eur. Phys. J. C1 (1998) 395–424.

− 22. Search for Charged Higgs Bosons in e+e Collisions at √s = 130 – 172 GeV. OPAL Collaboration, K. Ackerstaff et al., Phys. Lett. B426 (1998) 180–192.

23. Searches for Supersymmetric Particles and Anomalous Four-Jet Production at √s = 130 and 136 GeV at LEP. OPAL Collaboration, G. Alexander et al., Z. Phys. C73 (1997) 201–216.

− 24. Search for Chargino and Neutralino Production in e+e Collisions at √s = 161 GeV. OPAL Collaboration, K. Ackerstaff et al., Physics Letters B389 (1996) 616–630.

25. Where to Stick Your Data Points: The Treatment of Measurements Within Wide Bins. G. D. Lafferty and T. R. Wyatt, Nucl. Instr. and Meth. A355 (1995) 541–547.

26. The OPAL Muon Barrel Detector. R. J. Akers et al., Nucl. Instr. and Meth. A357 (1995) 253–273.

27. The Energy Calibration of LEP in the 1993 Scan. R. Assmann et al., Z. Phys. C66 (1995) 567–582.

28. Improved Measurements of the Neutral Current from Hadron and Lepton Production at LEP. OPAL Collaboration, R. Akers et al., Z. Phys. C61 (1994) 19–34.

29. Precision Measurements of the Neutral Current from Hadron and Lepton Production at LEP. OPAL Collaboration, P. D. Acton et al., Z. Phys. C58 (1993) 219–237.

30. Measurement of the Z0 Line Shape Parameters and the Electroweak Couplings of Charged Leptons. OPAL Collaboration, G. Alexander et al., Z. Phys. C52 (1991) 175–207.

31. Analysis of Z0 Couplings to Charged Leptons. OPAL Collaboration, M. Z. Akrawy et al., Phys. Lett. B247 (1990) 458–472.

32. A Combined Analysis of the Hadronic and Leptonic Decays of the Z0. OPAL Collaboration, M. Z. Akrawy et al., Phys. Lett. B240 (1990) 497–512.

33. Measurement of the Decay of the Z0 into Lepton Pairs. OPAL Collaboration, M. Z. Akrawy et al., Phys. Lett. B235 (1990) 379–388.

34. The OPAL Vertex Drift Chamber. J. R. Carter et al., Nucl. Instr. and Meth. A286 (1990) 99–106.

35. Measurement and Prediction of the Drift-Distance/Drift-Time Relationship of a Small Jet Chamber Operated with Carbon Dioxide/Isobutane. J. R. Carter et al., Nucl. Instr. and Meth. A278 (1989) 725–736.

6 36. Search for New Heavy Quarks at the CERN p¯pCollider. UA1 Collaboration, C. Albajar et al., Z. Phys. C37 (1988) 505–525.

37. Study of Heavy Flavour Production in Events with a Muon Accompanied by Jet(s) at the CERN p¯pCollider. UA1 Collaboration, C. Albajar et al., Z. Phys. C37 (1988) 489–503.

38. Upgraded Muon Detection System for UA1 Based on Limited-Streamer Tubes. G. Bauer et al., Nucl. Instr. and Meth. A253 (1987) 179–188.

− D.Phil. Thesis: A Study of the Production of b Quarks in e+e Annihilation at High Energies. T. R. Wyatt, University of Oxford and RL HEP T 110 (1983).

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