A
A. Dobbs
Researcher at Imperial College London
Publications - 37
Citations - 551
A. Dobbs is an academic researcher from Imperial College London. The author has contributed to research in topics: Muon & Ionization cooling. The author has an hindex of 13, co-authored 36 publications receiving 518 citations.
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Journal ArticleDOI
The MICE Muon Beam on ISIS and the beam-line instrumentation of the Muon Ionization Cooling Experiment
M. Bogomilov,Y. Karadzhov,D. Kolev,I. Russinov,R. Tsenov,G. Vankova-Kirilova,L. Wang,F. Y. Xu,S. X. Zheng,R. Bertoni,Maurizio Bonesini,Federico Ferri,G. Lucchini,R. Mazza,F. Paleari,F. Strati,V. Palladino,G. Cecchet,A. de Bari,M. Capponi,A. Cirillo,A. Iaciofano,Alessandro Manfredini,Mario Parisi,Domizia Orestano,Fr Pastore,A. Tonazzo,L. Tortora,Y. Mori,Y. Kuno,H. Sakamoto,A. Sato,T. Yano,M. Yoshida,S. Ishimoto,Shota Suzuki,Koji Yoshimura,Frank Filthaut,R. Garoby,Simone Gilardoni,P. Gruber,Klaus Hanke,H. Haseroth,Patrick Janot,Alessandra Lombardi,S. Ramberger,Maurizio Vretenar,P. Bene,A. Blondel,Franck Cadoux,J. S. Graulich,V. Grichine,E. Gschwendtner,F. Masciocchi,R. Sandstrom,V. Verguilov,H. Wisting,C. Petitjean,Rebecca Seviour,J. Alexander,G. Charnley,N. Collomb,S. Griffiths,B. Martlew,Andrew Moss,I. Mullacrane,A. Oates,P. Owens,Christopher J. White,S. York,D. Adams,R. J. Apsimon,P. Barclay,D.E. Baynham,T.W. Bradshaw,M. Courthold,P. Drumm,P. Drumm,Rob Edgecock,T. Hayler,Matthew Hills,Matthew Hills,Y. Ivaniouchenkov,A. Jones,A. Lintern,C. Macwaters,C. Nelson,A. Nichols,Robert D. Preece,S. Ricciardi,J. Rochford,Chris Rogers,W. Spensley,J. Tarrant,K. Tilley,S. Watson,A. Wilson,David Forrest,F. J. P. Soler,K. Walaron,K. Walaron,P.A. Cooke,R. Gamet,A. Alekou,M. Apollonio,G.J. Barber,R. Beuselinck,D. Clark,I. Clark,David Colling,A. Dobbs,P. J. Dornan,S. Fayer,A. Fish,R. Hare,S. Greenwood,A.K. Jamdagni,V. Kasey,M. Khaleeq,J. Leaver,Kenneth Long,E. McKigney,E. McKigney,Takashi Matsushita,Takashi Matsushita,Jaroslaw Pasternak,T. Sashalmi,T. Savidge,Maiko Takahashi,Maiko Takahashi,V. Blackmore,T. Carlisle,J.H. Cobb,W. Lau,Mike Rayner,C. D. Tunnell,Holger Witte,Shiming Yang,C. N. Booth,P. Hodgson,L. Howlett,R. Nicholson,E. Overton,Max Robinson,P.J. Smith,D. Adey,J. J. Back,S. B. Boyd,Paul Fraser Harrison,Malcolm Ellis,P. Kyberd,M. Littlefield,J. J. Nebrensky,A. D. Bross,S. Geer,David Neuffer,Alfred Moretti,Milorad Popovic,M. A.C. Cummings,T.J. Roberts,A. DeMello,Michael A. Green,Derun Li,Steve Virostek,Michael S. Zisman,Ben Freemire,P. Hanlet,D. Huang,G. Kafka,Daniel M. Kaplan,P. Snopok,Yagmur Torun,S. Blot,Yongsun Kim,U. Bravar,Yasar Onel,David B. Cline,Yasuo Fukui,K. Lee,X. Yang,Robert Rimmer,L. M. Cremaldi,G. Gregoire,G. Gregoire,T. L. Hart,D. A. Sanders,D. J. Summers,L. Coney,Richard Fletcher,G. G. Hanson,C. Heidt,Juan C. Gallardo,S.A. Kahn,H.G. Kirk,Robert B. Palmer +194 more
TL;DR: The international Muon Ionization Cooling Experiment (MICE) is under construction at the Rutherford Appleton Laboratory (RAL) to demonstrate the principle of ionization cooling as a technique for the reduction of the phase-space volume occupied by a muon beam as discussed by the authors.
ReportDOI
nuSTORM - Neutrinos from STORed Muons: Proposal to the Fermilab PAC
D. Adey,Sanjib Kumar Agarwalla,Charles M. Ankenbrandt,R. Asfandiyarov,J. J. Back,Gareth J. Barker,Eric Baussan,R. Bayes,S. Bhadra,V. Blackmore,A. Blondel,S. A. Bogacz,C. N. Booth,S. B. Boyd,A. Bravar,S. J. Brice,A. D. Bross,Franck Cadoux,H. Cease,A. Cervera,J.H. Cobb,David Colling,P. Coloma,L. Coney,A. Dobbs,J. Dobson,Andrea Donini,P. J. Dornan,Marcos Dracos,F. Dufour,Rob Edgecock,John Evans,M. Geelhoed,M. George,T.K. Ghosh,J.J. Gómez-Cadenas,A. de Gouvea,A. Haesler,Gordon H. Hanson,P. F. Harrison,M. Hartz,Porfidio Hernández,J. A. Hernando Morata,Paul Hodgson,Patrick Huber,A. Izmaylov,Y. Karadzhov,T. Kobilarcik,Joachim Kopp,L. L. Kormos,A. Korzenev,Y. Kuno,A. Kurup,P. Kyberd,J.-B. Lagrange,A. Laing,A. Liud,J. M. Link,Kenneth Long,Kendall Mahn,C. Mariani,C. Martin,J.P. Martin,N. McCauley,K. T. McDonald,O. Mena,S. R. Mishra,N.V. Mokhov,Jorge G. Morfin,Y. Mori,W. J. Murray,David Neuffer,R. J. Nichol,Etam Noah,M.A. Palmer,Stephen J. Parke,Silvia Pascoli,Jaroslaw Pasternak,Milorad Popovic,P. N. Ratoff,M. Ravonel,M. A.M. Rayner,S. Ricciardi,C. Rogers,P. Rubinov,E. M. Santos,A. Sato,Tanaji Sen,E. Scantamburlo,J. K. Sedgbeer,David R. Smith,Patrick Smith,Jan T. Sobczyk,L. Soby,F. J. P. Soler,S. Söldner-Rembold,M. Sorel,Pavel Snopok,P. Stamoulis,Luca Stanco,Sergei Striganov,H.A. Tanaka,I. Taylor,C. Touramanis,C. Tunnell,Y. Uchida,N. Vassilopoulos,M. O. Wascko,A. C. Weber,M. J. Wilking,Elena Wildner,Walter Winter,U. K. Yang +112 more
TL;DR: The nuSTORM facility as discussed by the authors was designed to deliver beams of neutrinos and their anti-particles from the decay of a stored muon beam with a central momentum of 3.8 GeV/c and a momentum acceptance of 10%.
Journal ArticleDOI
Characterisation of the muon beams for the Muon Ionisation Cooling Experiment
D. Adams,D. Adey,A. Alekou,M. Apollonio,R. Asfandiyarov,J. J. Back,G.J. Barber,P. Barclay,A. de Bari,R. Bayes,V. Bayliss,R. Bertoni,V. Blackmore,A. Blondel,S. Blot,M. Bogomilov,Maurizio Bonesini,C. N. Booth,D. Bowring,S. B. Boyd,T.W. Bradshaw,U. Bravar,A. D. Bross,M. Capponi,T. Carlisle,G. Cecchet,G. Charnley,J.H. Cobb,David Colling,N. Collomb,L. Coney,P.A. Cooke,M. Courthold,L. M. Cremaldi,A. DeMello,A. J. Dick,A. Dobbs,P. J. Dornan,Simon Fayer,Frank Filthaut,A. Fish,T. Fitzpatrick,Richard Fletcher,David Forrest,V. B. Francis,Ben Freemire,L. Fry,A. Gallagher,R. Gamet,S.A. Gourlay,Alastair Grant,J. S. Graulich,S. Griffiths,P. Hanlet,O. M. Hansen,G. G. Hanson,Paul Fraser Harrison,T. L. Hart,T. Hartnett,T. Hayler,C. Heidt,Matthew Hills,P. Hodgson,C. Hunt,A. Iaciofano,S. Ishimoto,G. Kafka,Daniel M. Kaplan,Y. Karadzhov,Yongsun Kim,D. Kolev,Y. Kuno,P. Kyberd,W. Lau,J. Leaver,M. Leonova,Derun Li,A. Lintern,M. Littlefield,Kenneth Long,G. Lucchini,Tianhuan Luo,C. Macwaters,B. Martlew,J. Martyniak,S. Middleton,Alfred Moretti,Andrew Moss,A. Muir,I. Mullacrane,J. J. Nebrensky,David Neuffer,A. Nichols,R. Nicholson,J. C. Nugent,Yasar Onel,Domizia Orestano,E. Overton,P. Owens,V. Palladino,Robert B. Palmer,Jaroslaw Pasternak,Fr Pastore,C. Pidcott,Milorad Popovic,Robert D. Preece,Soren Prestemon,D. Rajaram,S. Ramberger,M.A. Rayner,S. Ricciardi,A. Richards,T.J. Roberts,Max Robinson,C. Rogers,Kevin Ronald,P. Rubinov,R. Rucinski,I. Rusinov,H. Sakamoto,D. A. Sanders,E. M. Santos,T. Savidge,P.J. Smith,Pavel Snopok,F. J. P. Soler,T. Stanley,D. J. Summers,Maiko Takahashi,J. Tarrant,I. Taylor,L. Tortora,Yagmur Torun,R. Tsenov,C. D. Tunnell,G. Vankova,V. Verguilov,Steve Virostek,Maurizio Vretenar,K. Walaron,S. Watson,Christopher J. White,Colin G. Whyte,A. Wilson,H. Wisting,Michael S. Zisman +145 more
TL;DR: In this article, a single-particle technique to measure emittance has been developed and used to characterise seventeen different muon beams for the Muon Ionization Cooling Experiment (MICE).
Journal ArticleDOI
Light sterile neutrino sensitivity at the nuSTORM facility
D. Adey,Sanjib Kumar Agarwalla,Charles M. Ankenbrandt,R. Asfandiyarov,J. J. Back,Gareth J. Barker,Eric Baussan,R. Bayes,S. Bhadra,V. Blackmore,A. Blondel,S. A. Bogacz,C. N. Booth,S. B. Boyd,S. G. Bramsiepe,A. Bravar,S. J. Brice,A. D. Bross,Franck Cadoux,H. Cease,A. Cervera,J.H. Cobb,David Colling,P. Coloma,L. Coney,A. Dobbs,J. Dobson,Andrea Donini,P. J. Dornan,Marcos Dracos,F. Dufour,Rob Edgecock,M. Geelhoed,M. A. Uchida,T. Ghosh,J.J. Gómez-Cadenas,A. de Gouvea,A. Haesler,Gordon H. Hanson,P. F. Harrison,M. Hartz,Pilar Hernández,J. A. Hernando Morata,Paul Hodgson,Patrick Huber,A. Izmaylov,Y. Karadzhov,T. Kobilarcik,Joachim Kopp,L. L. Kormos,A. Korzenev,Y. Kuno,A. Kurup,P. Kyberd,J.-B. Lagrange,A. Laing,Ao Liu,J. M. Link,Kenneth Long,Kendall Mahn,C. Mariani,C. Martin,J. F. Martin,N. McCauley,Kirk T. McDonald,Olga Mena,S. R. Mishra,N.V. Mokhov,Jorge G. Morfin,Y. Mori,W. J. Murray,David Neuffer,R. J. Nichol,Etam Noah,M. A. Palmer,Stephen J. Parke,Silvia Pascoli,Jaroslaw Pasternak,R. K. Plunkett,Milorad Popovic,P. N. Ratoff,M. Ravonel,M. A.M. Rayner,S. Ricciardi,C. Rogers,P. Rubinov,E. M. Santos,A. Sato,Tanaji Sen,E. Scantamburlo,J. K. Sedgbeer,David R. Smith,Patrick Smith,Jan T. Sobczyk,L. Soby,F. J. P. Soler,M. Sorel,Pavel Snopok,P. Stamoulis,L. Stanco,S. Striganov,H.A. Tanaka,I. Taylor,C. Touramanis,C. D. Tunnell,Y. Uchida,N. Vassilopoulos,M. O. Wascko,A. C. Weber,M. J. Wilking,Elena Wildner,Walter Winter +111 more
TL;DR: In this paper, the nuSTORM facility was used to carry out a conclusive muon neutrino appearance search for neutrinos and test the LSND and MiniBooNE experimental signals with 10σ sensitivity, even assuming conservative estimates for the systematic uncertainties.
Posted Content
Neutrinos from Stored Muons nuSTORM: Expression of Interest
D. Adey,Sanjib Kumar Agarwalla,Charles M. Ankenbrandt,R. Asfandiyarov,J. J. Back,Gareth J. Barker,Eric Baussan,R. Bayes,S. Bhadra,V. Blackmore,A. Blondel,S. A. Bogacz,C. N. Booth,S. B. Boyd,A. Bravar,S. J. Brice,A. D. Bross,Franck Cadoux,H. Cease,A. Cervera,J.H. Cobb,David Colling,L. Coney,A. Dobbs,J. Dobson,Andrea Donini,P. J. Dornan,Marcos Dracos,F. Dufour,Rob Edgecock,John Evans,M. George,T.K. Ghosh,A. deGouvea,J.J. Gómez-Cadenas,A. Haesler,G. G. Hanson,M. Geelhoed,P. F. Harrison,M. Hartz,Porfidio Hernández,J. A. Hernando-Morata,P. Hodgson,Patrick Huber,A. Izmaylov,Y. Karadhzov,T. Kobilarcik,Joachim Kopp,L. L. Kormos,A. Korzenev,A. Kurup,Y. Kuno,P. Kyberd,J. P. Lagrange,A. Laing,J. M. Link,Ao Liu,Kenneth Long,N. McCauley,K. T. McDonald,Kendall Mahn,Christopher Blake Martin,J.P. Martin,O. Mena,S. R. Mishra,N.V. Mokhov,Jorge G. Morfin,Y. Mori,W. J. Murray,David Neuffer,R. J. Nichol,Etam Noah,M.A. Palmer,Stephen J. Parke,Silvia Pascoli,Jaroslaw Pasternak,Milorad Popovic,P. N. Ratoff,M. Ravonel,M. A.M. Rayner,S. Ricciardi,C. Rogers,P. Rubinov,E. M. Santos,A. Sato,E. Scantamburlo,J. K. Sedgbeer,David R. Smith,Patrick Smith,Jan T. Sobczyk,S. Söldner-Rembold,F. J. P. Soler,M. Sorel,A. Stahl,Luca Stanco,P. Stamoulis,Sergei Striganov,H.A. Tanaka,I. Taylor,C. Touramanis,C. D. Tunnel,Y. Uchida,N. Vassilopoulos,M. O. Wascko,A. C. Weber,Elena Wildner,M. J. Wilking,Walter Winter,U. K. Yang +108 more
TL;DR: The nuSTORM facility as mentioned in this paper is designed to deliver beams of electron and muon neutrinos from the decay of a stored muon beam with a central momentum of 3.8 GeV/c and a momentum spread of 10%.