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Jonathan Richard Ellis CBE FRS (born 1 July 1946[1]) is a British theoretical physicist who is currently Clerk Maxwell Professor of Theoretical Physics at King's College London.[2]

John Ellis
Born (1946-07-01) 1 July 1946 (age 71)
Hampstead, London
Nationality British
Fields Physics
Institutions King's College London
Alma mater King's College, Cambridge
Notable awards Mayhew Prize (1968)
Maxwell Medal and Prize (1982)
Paul Dirac Medal and Prize (2005)

After completing his secondary education at Highgate School, he attended King's College, Cambridge, earning his PhD in theoretical (high-energy) particle physics in 1971. After brief post-doc positions at SLAC and Caltech, he went to CERN and has held an indefinite contract there since 1978. He was awarded the Maxwell Medal and the Paul Dirac Prize by the Institute of Physics in 1982 and 2005 respectively, and is an Elected Fellow of the Royal Society of London since 1985 and of the Institute of Physics since 1991. He was awarded an Honorary Doctorate from the University of Southampton, and twice won the First Award in the Gravity Research Foundation essay competition (in 1999 and 2005). He is also Honorary Doctor at Uppsala University.[3]

Ellis' activities at CERN are wide-ranging.[4][5] He was twice Deputy Division Leader for the theory ("TH") division, and served as Division Leader for 1988–1994. He was a founding member of the LEPC and of the LHCC; currently he is chair of the committee to investigate physics opportunities for future proton accelerators, and is a member of the extended CLIC (Compact Linear Collider) Steering Committee.

Ellis was appointed Commander of the Order of the British Empire (CBE) in the 2012 Birthday Honours for services to science and technology.[6][7]


Scientific ResearchEdit

Ellis' research interests focus on the phenomenological aspects of particle physics, though he has also made important contributions to astrophysics and cosmology and quantum gravity.[8] Most of his publications relate directly to experiment, from interpreting measurements and the results of searches for new particles, to exploring the physics that could be done with future accelerators. He was one of the pioneers of research at the interface between particle physics and cosmology, which has since become a sub-specialty of its own: particle astrophysics.

Ellis' early research accomplishments are centred on the phenomenology of gauge theories. Working with Dimitri Nanopoulos and Mary Gaillard, he proposed in 1976 the so-called "Higgs-strahlung" process in which a Higgs boson is radiated from a Z-boson[9] (this proved to be the best way to search for the Higgs boson at the Large Electron–Positron Collider), and in the same year estimated the direct CP-violation contribution to rare neutral kaon decays[10] (which led to the success of the NA31 and NA48 experiments at CERN). Also in 1976, he published two papers suggesting techniques for finding the gluon in

annihilations.[11] The following year he predicted the mass of the bottom quark on the basis of Grand Unified Theory, before this quark was observed in experiment. In 1978 he published a frequently cited general paper on such theories, with Andrzej J. Buras, Gaillard and Nanopoulos.[12]

In the 1980s, Ellis became a leading advocate of models of supersymmetry. In one of his earliest works, he showed that the lightest supersymmetric particle is a natural dark matter candidate.[13] In 1991, he showed that radiative corrections to the mass of the lightest Higgs boson in minimal supersymmetric models increased that mass beyond the reach of the Large Electron–Positron Collider (LEP) searches.[14] More generally, Ellis and collaborators pioneered the analysis of so-called "benchmark scenarios" meant to illustrate the range of phenomenology to be expected from supersymmetric models;[15] such analyses have played a major role in evaluating the promise of various future accelerator options.

In parallel to his investigations of supersymmetric phenomenology, Ellis has also advocated phenomenological probes of quantum gravity and string theory. These probes include direct tests of quantum mechanics with the CPLEAR Collaboration and the derivation of Grand Unified Theories from string theory. In this vein, his work on tests of the constancy of the velocity of light and models of string cosmology received separate prizes from the Gravity Research Foundation.

An impression of the impact of Ellis' research can be obtained from the INSPIRE-HEP reference system for scientific papers in particle physics and related fields. As of 2015, this data base lists over 1,000 scientific papers of which he is an author; altogether the sum of citations is above 60,000. In 2004 a SPIRES survey ranked him as the second-most cited theoretical physicist.[16] His publications include three papers with over 1000 citations, eight more with over 500 citations, and over 100 other papers with at least 100 citations each.[17]

Support of particle accelerator projectsEdit

John Ellis in his office at CERN in January 2012

In addition to his theoretical research, John Ellis has been an advocate and supporter of future accelerators, beginning with LEP and the LHC, and extending to Compact Linear Collider (CLIC), photon colliders, and future proton accelerators. Naturally his theoretical work reflected these connections, as when he showed that data from the Stanford Linear Collider (SLC) and from LEP could be used to predict the masses of the top quark and the Higgs boson. Such predictions are now a mainstream activity within particle physics, and constitute one of the most important bridges between the experimental and theoretical communities.

Concerning the LHC, Ellis played a leading role in the seminal 1984 workshop on physics to be done with such an accelerator. Since then he has written many articles on searches for Higgs bosons and supersymmetric particles at the LHC, both for the pariticle physics community and at a more popular level. His most recent LHC physics review appeared in a Nature Insight supplement on 19 July 2007.

John Ellis has been a strong supporter of the CLIC option for a future high-energy

linear collider;[18] this option is pursued most strongly at CERN. He was convenor of the CLIC Physics Study Group that produced the main report on this option, in 2004.

Outreach and spreading physics around the worldEdit

John Ellis at the Birzeit University in November 2008

Ellis is regularly invited to give public lectures on particle physics and related topics. In the two-year period 2004–5, he gave public lectures in Geneva (in French), in Granada and Barcelona (in Spanish), in Rome (in Italian) and in Warsaw (in English). While at CERN he often gives introductory talks to visitors, ranging from official delegations from the United Kingdom to physics teachers at the high-school level.

Ellis is known for his efforts to involve non-European nations in CERN scientific activities. In the context of the LHC, he has interacted frequently with physicists, administrators at universities and institutes, and ministers of funding agencies and diplomatic corps from a wide variety of countries, ranging from major CERN partners like the United States, Russia, Japan, Canada, India, Israel, Armenia and China, to states with nascent physics programs such as Azerbaijan, the Baltic republics, Bolivia, Colombia, Croatia, Cyprus, Iran, Madagascar, New Zealand, Pakistan, Romania, Sri Lanka, Vietnam, and lately in Palestine and Rwanda, and many others. These interactions have fostered the international character of CERN and opened the pathways of scientific discourse all around the world.

In 2014, Ellis delivered an address about his experiences at CERN at the second Starmus Festival in the Canary Islands. Ellis is a regular panellist at HowTheLightGetsIn, the music and philosophy festival hosted each year in Hay-on-Wye.

See alsoEdit


  1. ^ Sleeman, Elizabeth (2003). The International Who's Who 2004. Routledge. p. 489. ISBN 1-85743-217-7. 
  2. ^ About King's College London : News and What's On : King's College London. (31 March 2010). Retrieved 5 July 2012.
  3. ^ "Nya hedersdoktorer inom teknik och naturvetenskap". Archived from the original on 7 June 2011. Retrieved 22 January 2009. . (7 October 2008).
  4. ^ Anthony, Katarina (5 September 2011). "John Ellis discusses the Higgs, the lack of the Higgs, and extra dimensions". CERN Bulletin (37–38). 
  5. ^ Anthony, Katarina (26 September 2011). "John Ellis considers cosmology, colloquiums and new collaborations". CERN Bulletin (39–40). 
  6. ^ "No. 60173". The London Gazette (Supplement). 16 June 2012. p. 7. 
  7. ^ "John Ellis honoured by the Queen". CERN Courier. 52 (6): 39. July 2012. 
  8. ^ Ellis, John; Nanopoulos, Dimitri (July 1983). "Particle physics and cosmology". CERN Courier. 23 (6): 211–216. 
  9. ^ Ellis, John; Gaillard, Mary K.; Nanopoulos, D.V. (1976). "A phenomenological profile of the Higgs boson". Nuclear Physics B. 106: 292. Bibcode:1976NuPhB.106..292E. doi:10.1016/0550-3213(76)90382-5. 
  10. ^ Ellis, John; Gaillard, Mary K.; Nanopoulos, D.V. (1976). "Left-{{subst:lc:handed}} currents and CP violation". Nuclear Physics B. 109 (2): 213. Bibcode:1976NuPhB.109..213E. doi:10.1016/0550-3213(76)90203-0. 
  11. ^ Ellis, John; Gaillard, Mary K.; Ross, Graham G. (1976). "Search for gluons in e+e− annihilation". Nuclear Physics B. 111 (2): 253. Bibcode:1976NuPhB.111..253E. doi:10.1016/0550-3213(76)90542-3. "Search for gluons in ep+ep-annihilation". Nuclear Physics B. 130 (3): 516. 1977. Bibcode:1977NuPhB.130Q.516.. doi:10.1016/0550-3213(77)90253-X. 
  12. ^ Buras, A.J.; Ellis, J.; Gaillard, M.K.; Nanopoulos, D.V. (1978). "Aspects of the grand unification of strong, weak and electromagnetic interactions". Nuclear Physics B. 135: 66. Bibcode:1978NuPhB.135...66B. doi:10.1016/0550-3213(78)90214-6. 
  13. ^ Ellis, John; Hagelin, J.S.; Nanopoulos, D.V.; Olive, K.; Srednicki, M. (1984). "Supersymmetric relics from the big bang". Nuclear Physics B. 238 (2): 453. Bibcode:1984NuPhB.238..453E. doi:10.1016/0550-3213(84)90461-9. 
  14. ^ Ellis, John; Ridolfi, Giovanni; Zwirner, Fabio (1991). "Radiative corrections to the masses of supersymmetric Higgs bosons". Physics Letters B. 257: 83. Bibcode:1991PhLB..257...83E. doi:10.1016/0370-2693(91)90863-L. 
  15. ^ Battaglia, M.; De Roeck, A.; Ellis, J.; Gianotti, F.; Matchev, K.T.; Olive, K.A.; Pape, L.; Wilson, G. (2001). "Proposed Post-LEP benchmarks for supersymmetry". The European Physical Journal C. 22 (3): 535. Bibcode:2001EPJC...22..535B. arXiv:hep-ph/0106204 . doi:10.1007/s100520100792. 
  16. ^ "The top cited theory authors in the SPIRES-HEP database (2004)". SPIRES-HEP. May 2004. Retrieved 29 June 2012. 
  17. ^ "INSPIRE-HEP: Ellis, John R.". INSPIRE-HEP. Retrieved 29 June 2012. 
  18. ^ Ellis, John (July 2013). "The case for a circular e+e– Higgs factory". CERN Courier. 53 (6): 26–27. 

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