G. V. Fedotovich
Budker Institute of Nuclear Physics
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Physical Review D | 2006
Gw Bennett; B. Bousquet; H. N. Brown; G. Bunce; R. M. Carey; P. Cushman; G. T. Danby; P. T. Debevec; M. Deile; H. Deng; S. Dhawan; V. P. Druzhinin; L. Duong; E. Efstathiadis; F. J. M. Farley; G. V. Fedotovich; S. Giron; F. Gray; D. Grigoriev; M. Grosse-Perdekamp; A. Grossmann; M. F. Hare; David W. Hertzog; X. Huang; V. W. Hughes; M. Iwasaki; Klaus-Peter Jungmann; D. Kawall; M. Kawamura; B. I. Khazin
We present the final report from a series of precision measurements of the muon anomalous magnetic moment, a(mu)=(g-2)/2. The details of the experimental method, apparatus, data taking, and analysis are summarized. Data obtained at Brookhaven National Laboratory, using nearly equal samples of positive and negative muons, were used to deduce a(mu)(Expt)=11659208.0(5.4)(3.3)x10(-10), where the statistical and systematic uncertainties are given, respectively. The combined uncertainty of 0.54 ppm represents a 14-fold improvement compared to previous measurements at CERN. The standard model value for a(mu) includes contributions from virtual QED, weak, and hadronic processes. While the QED processes account for most of the anomaly, the largest theoretical uncertainty, approximate to 0.55 ppm, is associated with first-order hadronic vacuum polarization. Present standard model evaluations, based on e(+)e(-) hadronic cross sections, lie 2.2-2.7 standard deviations below the experimental result.
Physical Review Letters | 2002
Gw Bennett; B. Bousquet; H. N. Brown; G. Bunce; R. M. Carey; P. Cushman; G. T. Danby; P. T. Debevec; M. Deile; H. Deng; S. Dhawan; V. P. Druzhinin; L. Duong; F. J. M. Farley; G. V. Fedotovich; F. Gray; D. Grigoriev; M Grosse-Perdekamp; A. Grossmann; M. F. Hare; David W. Hertzog; [No Value] Huang; V. W. Hughes; M. Iwasaki; K. Jungmann; D. Kawall; B. I. Khazin; F. Krienen; [No Value] Kronkvist; A. Lam
The anomalous magnetic moment of the negative muon has been measured to a precision of 0.7 ppm (ppm) at the Brookhaven Alternating Gradient Synchrotron. This result is based on data collected in 2001, and is over an order of magnitude more precise than the previous measurement for the negative muon. The result a(mu(-))=11 659 214(8)(3) x 10(-10) (0.7 ppm), where the first uncertainty is statistical and the second is systematic, is consistent with previous measurements of the anomaly for the positive and the negative muon. The average of the measurements of the muon anomaly is a(mu)(exp)=11 659 208(6) x 10(-10) (0.5 ppm).
Physical Review Letters | 2001
H. N. Brown; G. Bunce; R. M. Carey; P. Cushman; G. T. Danby; P. T. Debevec; M. Deile; H. Deng; Satish Dhawan; V. P. Druzhinin; L. Duong; E. Efstathiadis; F. J. M. Farley; G. V. Fedotovich; S. Giron; F. Gray; D. Grigoriev; M. Grosse-Perdekamp; A. Grossmann; M. F. Hare; David W. Hertzog; V. W. Hughes; M. Iwasaki; K. Jungmann; D. Kawall; M. Kawamura; B. I. Khazin; J. Kindem; F. Krienen; I. Kronkvist
A precise measurement of the anomalous g value, a(mu) = (g-2)/2, for the positive muon has been made at the Brookhaven Alternating Gradient Synchrotron. The result a(mu+) = 11 659 202(14) (6) x 10(-10) (1.3 ppm) is in good agreement with previous measurements and has an error one third that of the combined previous data. The current theoretical value from the standard model is a(mu)(SM) = 11 659 159.6(6.7) x 10(-10) (0.57 ppm) and a(mu)(exp) - a(mu)(SM) = 43(16) x 10(-10) in which a(mu)(exp) is the world average experimental value.
Physical Review D | 2009
G. W. Bennett; B. Bousquet; H. N. Brown; G. Bunce; R. M. Carey; P. Cushman; G. T. Danby; P. T. Debevec; M. Deile; H. Deng; S. Dhawan; V. P. Druzhinin; L. Duong; E. Efstathiadis; F. J. M. Farley; G. V. Fedotovich; S. Giron; F. Gray; D. Grigoriev; M. Grosse-Perdekamp; A. Grossmann; M. F. Hare; David W. Hertzog; X. Huang; V. W. Hughes; M. Iwasaki; K. Jungmann; D. Kawall; M. Kawamura; B. I. Khazin
G.W. Bennett, B. Bousquet, H.N. Brown, G. Bunce, R.M. Carey, P. Cushman, G.T. Danby, P.T. Debevec, M. Deile, H. Deng, W. Deninger, S.K. Dhawan, V.P. Druzhinin, L. Duong, E. Efstathiadis, F.J.M. Farley, G.V. Fedotovich, S. Giron, F.E. Gray, D. Grigoriev, M. Grosse-Perdekamp, A. Grossmann, M.F. Hare, D.W. Hertzog, X. Huang, V.W. Hughes, M. Iwasaki, K. Jungmann, D. Kawall, M. Kawamura, B.I. Khazin, J. Kindem, F. Krienen, I. Kronkvist, A. Lam, R. Larsen, Y.Y. Lee, I. Logashenko, R. McNabb, W. Meng, J. Mi, J.P. Miller, Y. Mizumachi, W.M. Morse, D. Nikas, C.J.G. Onderwater, Y. Orlov, C.S. Özben, J.M. Paley, Q. Peng, C.C. Polly, J. Pretz, R. Prigl, G. zu Putlitz, T. Qian, S.I. Redin, O. Rind, B.L. Roberts, N. Ryskulov, S. Sedykh, Y.K. Semertzidis, P. Shagin, Yu.M. Shatunov, E.P. Sichtermann, E. Solodov, M. Sossong, A. Steinmetz, L.R. Sulak, C. Timmermans, A. Trofimov, D. Urner, P. von Walter, D. Warburton, D. Winn, A. Yamamoto and D. Zimmerman (Muon (g − 2) Collaboration) Department of Physics, Boston University, Boston, MA 02215 Brookhaven National Laboratory, Upton, NY 11973 Budker Institute of Nuclear Physics, 630090 Novosibirsk, Russia LEPP, Cornell University, Ithaca, NY 14853 Fairfield University, Fairfield, CT 06430 6 Kernfysisch Versneller Instituut, University of Groningen, NL-9747 AA, Groningen, The Netherlands 7 Physikalisches Institut der Universität Heidelberg, 69120 Heidelberg, Germany 8 Department of Physics, University of Illinois at Urbana-Champaign, Urbana, IL 61801 9 KEK, High Energy Accelerator Research Organization, Tsukuba, Ibaraki 305-0801, Japan Department of Physics, University. of Minnesota., Minneapolis, MN 55455 11 Science University of Tokyo, Tokyo, 153-8902, Japan 12 Tokyo Institute of Technology, 2-12-1 Ookayama, Meguro-ku, Tokyo, 152-8551, Japan 13 Department of Physics, Yale University, New Haven, CT 06520 † Deceased
Physical Review D | 2000
H. N. Brown; G. Bunce; R. M. Carey; P. Cushman; G. T. Danby; P. T. Debevec; H Deng; Sk Dhawan; V. P. Druzhinin; L. Duong; W. Earle; E. Efstathiadis; G. V. Fedotovich; F. J. M. Farley; S. Giron; F. Gray; M. Grosse-Perdekamp; A. Grossmann; Ulrich Haeberlen; M. F. Hare; E. Hazen; David W. Hertzog; Vw Hughes; M. Iwasaki; Klaus-Peter Jungmann; D Kawall; M. Kawamura; B. I. Khazin; J. Kindem; F. Krienen
A new measurement of the positive muons anomalous magnetic moment has been made at the Brookhaven Alternating Gradient Synchrotron using the direct injection of polarized muons into the superferric storage ring. The angular frequency difference omega (a) between the angular spin precession frequency omega (s) and the angular orbital frequency omega (c) is measured as well as the free proton MMR frequency omega (p). These determine R = omega (a)/omega (p) = 3.707 201(19) x 10(-3). With mu (mu)/mu (p) = 3.183 345 39(10) this gives a(mu+) = 11 659 191(59) x 10-(10) (+/-5 ppm), in good agreement with the previous CERN and BNL measurements for mu (+) and mu (-), and with the standard model prediction.
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 2001
G. T. Danby; L. Addessi; Z. Armoza; J. Benante; H. N. Brown; G. Bunce; J. Cottingham; J. Cullen; J. Geller; H. Hseuh; J. W. Jackson; L. Jia; S. Kochis; D. Koniczny; R.C. Larsen; Y. Y. Lee; M. Mapes; R. E. Meier; W. Meng; W. M. Morse; M. O'Toole; C. Pai; I. Polk; R. Prigl; Yannis K. Semertzidis; R. Shutt; L. Snydstrup; A. Soukas; T. Tallerico; F. Toldo
Abstract The muon g-2 experiment at Brookhaven National Laboratory has the goal of determining the muon anomalous g-value a μ (=(g−2)/2) to the very high precision of 0.35 parts per million and thus requires a storage ring magnet with great stability and homogeniety. A superferric storage ring with a radius of 7.11 m and a magnetic field of 1.45 T has been constructed in which the field quality is largely determined by the iron, and the excitation is provided by superconducting coils operating at a current of 5200 A. The storage ring has been constructed with maximum attention to azimuthal symmetry and to tight mechanical tolerances and with many features to allow obtaining a homogenous magnetic field. The fabrication of the storage ring, its cryogenics and quench protection systems, and its initial testing and operation are described.
arXiv: High Energy Physics - Experiment | 2003
C. Ozben; H.N. Brown; E. P. Solodov; L. Duong; S. Dhawan; X. Huang; I. B. Logashenko; M. Iwasaki; J. P. Miller; Y. Y. Lee; A. Steinmetz; M. Sossong; F. Gray; N. M. Ryskulov; A. Trofimov; D. Nikas; V. W. Hughes; J. Pretz; R. McNabb; G. Bunce; C. J. G. Onderwater; B. Bousquet; H. Deng; G. T. Danby; B. I. Khazin; T. Qian; R. M. Carey; R. Prigl; S. I. Redin; G. V. Fedotovich
The muon g-2 experiment at Brookhaven National Laboratory measures the anomalous magnetic moment of the muon,
arXiv: High Energy Physics - Experiment | 2003
B.L. Roberts; R. M. Carey; E. Efstathiadis; M. F. Hare; X. Huang; F. Krienen; A. Lam; I. Logashenko; J. P. Miller; J. M. Paley; Q. Peng; O. Rind; L. Sulak; A. Trofimov; G. W. Bennett; H. N. Brown; G. Bunce; G. T. Danby; R.C. Larsen; Y. Y. Lee; W. Meng; J. Mi; W. M. Morse; D. Nikas; C. Ozben; R. Prigl; Yannis K. Semertzidis; D. Warburton; Y. Orlov; Klaus-Peter Jungmann
a_mu
ATOMIC PHYSICS 17: XVII International Conference on Atomic Physics; ICAP 2000 | 2001
V. W. Hughes; H. N. Brown; G. Bunce; R. M. Carey; P. Cushman; G. T. Danby; P. T. Debevec; H. Deng; S. Dhawan; V. P. Druzhinin; L. Duong; W. Earle; E. Efstathiadis; G. V. Fedotovich; F.J.M. Farley; S. Giron; F. Gray; M. Grosse-Perdekamp; A. Grossmann; Ulrich Haeberlen; M. F. Hare; E. Hazen; David W. Hertzog; Vw Hughes; M. Iwasake; K. Jungmann; D. Kawall; M. Kawamura; B. I. Khazin; J. Kindem
, very precisely. This measurement tests the Standard Model. The analysis for the data collected in 2000 (a
Nuclear Physics | 2003
David W. Hertzog; R. M. Carey; E. Efstathiadis; M. F. Hare; X. Huang; F. Krienen; A. Lam; I. B. Logashenko; J. P. Miller; J. M. Paley; Q. Peng; O. Rind; B.L. Roberts; L. Sulak; A. Trofimov; G. W. Bennett; H. N. Brown; G. Bunce; G. T. Danby; R.C. Larsen; Y. Y. Lee; W. Meng; J. Mi; W. M. Morse; D. Nikas; C. Ozben; R. Prigl; Yannis K. Semertzidis; D. Warburton; Y. Orlov
mu^+
