The new muon g-2 Experiment at Fermilab

Graziano Venanzoni; B. Abi T. Albahri; S. Al-Kilani; D. Allspach; L. P. Alonzi; A. Anastasi; F. Azfar; D. Babusci; S. Baessler; V. A. Baranov; E. Barzi; R. Bjorkquist; T. Bowcock; G. Cantatore; R. M. Carey; J. Carroll; B. Casey; D. Cauz; A. Chapelain; S. Chappa; S. Chattopadhyay; R. Chislett; T. E. Chupp; M. Convery; G. Corradi; J. Crnkovic; S. Dabagov; P. T. Debevec; G. Di Sciascio; R. Di Stefano; B. Drendel; V. P. Druzhinin; V. N. Duginov; M. Eads; N. Eggert; A. Epps; R. Fatemi; C. Ferrari; M. Fertl; A. T. Fienberg; A. Fioretti; D. Flay; A. S. Frankenthal; H. Friedsam; E. Frlez; N. S. Froemming; C. Fu; C. Gabbanini; M. Gaisser; S. Ganguly; A. Garcia; J. George; L. K. Gibbons; K. L. Giovanetti; S. Goadhouse; W. Gohn; T. Gorringe; J. Grange; F. Gray; S. Haciomeroglu; T. Halewood-Leagas; D. Hampai; E. Hazen; S. Henry; D. W. Hertzog; J. L. Holzbauer; M. Iacovacci; C. Johnstone; J. A. Johnstone; K. Jungmann; H. Kamal Sayed; P. Kammel; M. Karuza; J. Kaspar; D. Kawall; L. Kelton; K. S. Khaw; N. V. Khomutov; B. Kiburg; S. C. Kim; Y. I. Kim; B. King; N. Kinnaird; I. A. Koop; I. Kourbanis; V. A. Krylov; A. Kuchibhotla; N. A. Kuchinskiy; M. Lancaster; M. J. Lee; S. Lee; S. Leo; L. Li; I. Logashenko; G. Luo; K. R. Lynch; A. Lyon; S. Marignetti; S. Mastroianni; S. Maxfield; M. McEvoy; Z. Meadows; W. Merritt; A. A. Mikhailichenko; J. P. Miller; J. P. Morgan; D. Moricciani; W. M. Morse; J. Mott; E. Motuk; H. Nguyen; Y. Orlov; R. Osofsky; J. F. Ostiguy; A. Palladino; G. Pauletta; K. Pitts; D. Pocanic; N. Pohlman; C. Polly; J. Price; B. Quinn; N. Raha; E. Ramberg; N. T. Rider; J. L. Ritchie; B. L. Roberts; M. Rominsky; D. L. Rubin; L. Santi; C. Schlesier; Y. K. Semertzidis; Y. M. Shatunov; M. Shenk; A. Smith; M. W. Smith; A. Soha; E. Solodov; D. Still; D. Stöckinger; T. Stuttard; H. E. Swanson; D. A. Sweigart; M. J. Syphers; S. Szustkowski; D. Tarazona; T. Teubner; A. E. Tewlsey-Booth; V. Tishchenko; G. Venanzoni; V. P. Volnykh; T. Walton; M. Warren; L. Welty-Rieger; M. Whitley; P. Winter; A. Wolski; E. Won; M. Wormald; W. Wu; H. Yang; C. Yoshikawa

The new muon g-2 Experiment at Fermilab

Graziano Venanzoni
, B. Abi T. Albahri
, S. Al-Kilani
, D. Allspach
, L. P. Alonzi
, A. Anastasi
, F. Azfar
, D. Babusci
, S. Baessler
, V. A. Baranov
, E. Barzi
, R. Bjorkquist
, T. Bowcock
, G. Cantatore
, R. M. Carey
, J. Carroll
, B. Casey
, D. Cauz
, A. Chapelain
, S. Chappa

S. Chattopadhyay, R. Chislett, T. E. Chupp, M. Convery, G. Corradi, J. Crnkovic, S. Dabagov, P. T. Debevec, G. Di Sciascio, R. Di Stefano, B. Drendel, V. P. Druzhinin, V. N. Duginov, M. Eads, N. Eggert, A. Epps, R. Fatemi, C. Ferrari, M. Fertl, A. T. Fienberg, A. Fioretti, D. Flay, A. S. Frankenthal, H. Friedsam, E. Frlez, N. S. Froemming, C. Fu, C. Gabbanini, M. Gaisser, S. Ganguly, A. Garcia, J. George, L. K. Gibbons, K. L. Giovanetti, S. Goadhouse, W. Gohn, T. Gorringe, J. Grange, F. Gray, S. Haciomeroglu, T. Halewood-Leagas, D. Hampai, E. Hazen, S. Henry, D. W. Hertzog, J. L. Holzbauer, M. Iacovacci, C. Johnstone, J. A. Johnstone, K. Jungmann, H. Kamal Sayed, P. Kammel, M. Karuza, J. Kaspar, D. Kawall, L. Kelton, K. S. Khaw, N. V. Khomutov, B. Kiburg, S. C. Kim, Y. I. Kim, B. King, N. Kinnaird, I. A. Koop, I. Kourbanis, V. A. Krylov, A. Kuchibhotla, N. A. Kuchinskiy, M. Lancaster, M. J. Lee, S. Lee, S. Leo, L. Li, I. Logashenko, G. Luo, K. R. Lynch, A. Lyon, S. Marignetti, S. Mastroianni, S. Maxfield, M. McEvoy, Z. Meadows, W. Merritt, A. A. Mikhailichenko, J. P. Miller, J. P. Morgan, D. Moricciani, W. M. Morse, J. Mott, E. Motuk, H. Nguyen, Y. Orlov, R. Osofsky, J. F. Ostiguy, A. Palladino, G. Pauletta, K. Pitts, D. Pocanic, N. Pohlman, C. Polly, J. Price, B. Quinn, N. Raha, E. Ramberg, N. T. Rider, J. L. Ritchie, B. L. Roberts, M. Rominsky, D. L. Rubin, L. Santi, C. Schlesier, Y. K. Semertzidis, Y. M. Shatunov, M. Shenk, A. Smith, M. W. Smith, A. Soha, E. Solodov, D. Still, D. Stöckinger, T. Stuttard, H. E. Swanson, D. A. Sweigart, M. J. Syphers, S. Szustkowski, D. Tarazona, T. Teubner, A. E. Tewlsey-Booth, V. Tishchenko, G. Venanzoni, V. P. Volnykh, T. Walton, M. Warren, L. Welty-Rieger, M. Whitley, P. Winter, A. Wolski, E. Won, M. Wormald, W. Wu, H. Yang, C. Yoshikawa

Department of Physics

National Institute for Nuclear Physics

Research output: Contribution to journal › Conference article › peer-review

Abstract

There is a long standing discrepancy between the Standard Model prediction for the muon g-2 and the value measured by the Brookhaven E821 Experiment. At present the discrepancy stands at about three standard deviations, with a comparable accuracy between experiment and theory. Two new proposals - at Fermilab and J-PARC - plan to improve the experimental uncertainty by a factor of 4, and it is expected that there will be a significant reduction in the uncertainty of the Standard Model prediction. I will review the status of the planned experiment at Fermilab, E989, which will analyse 21 times more muons than the BNL experiment and discuss how the systematic uncertainty will be reduced by a factor of 3 such that a precision of 0.14 ppm can be achieved.

Original language	English
Article number	568
Journal	Proceedings of Science
Volume	22-29-July-2015
State	Published - 2015
Event	23rd European Physical Society Conference on High Energy Physics, EPS-HEP 2015 - Vienna, Austria Duration: 22 Jul 2015 → 29 Jul 2015

Cite this

Venanzoni, G., Albahri, B. A. T., Al-Kilani, S., Allspach, D., Alonzi, L. P., Anastasi, A., Azfar, F., Babusci, D., Baessler, S., Baranov, V. A., Barzi, E., Bjorkquist, R., Bowcock, T., Cantatore, G., Carey, R. M., Carroll, J., Casey, B., Cauz, D., Chapelain, A., ... Yoshikawa, C. (2015). The new muon g-2 Experiment at Fermilab. Proceedings of Science, 22-29-July-2015, Article 568.

@article{5badeeebddbf489e964c09d39eac4246,

title = "The new muon g-2 Experiment at Fermilab",

abstract = "There is a long standing discrepancy between the Standard Model prediction for the muon g-2 and the value measured by the Brookhaven E821 Experiment. At present the discrepancy stands at about three standard deviations, with a comparable accuracy between experiment and theory. Two new proposals - at Fermilab and J-PARC - plan to improve the experimental uncertainty by a factor of 4, and it is expected that there will be a significant reduction in the uncertainty of the Standard Model prediction. I will review the status of the planned experiment at Fermilab, E989, which will analyse 21 times more muons than the BNL experiment and discuss how the systematic uncertainty will be reduced by a factor of 3 such that a precision of 0.14 ppm can be achieved.",

author = "Graziano Venanzoni and Albahri, \{B. Abi T.\} and S. Al-Kilani and D. Allspach and Alonzi, \{L. P.\} and A. Anastasi and F. Azfar and D. Babusci and S. Baessler and Baranov, \{V. A.\} and E. Barzi and R. Bjorkquist and T. Bowcock and G. Cantatore and Carey, \{R. M.\} and J. Carroll and B. Casey and D. Cauz and A. Chapelain and S. Chappa and S. Chattopadhyay and R. Chislett and Chupp, \{T. E.\} and M. Convery and G. Corradi and J. Crnkovic and S. Dabagov and Debevec, \{P. T.\} and \{Di Sciascio\}, G. and \{Di Stefano\}, R. and B. Drendel and Druzhinin, \{V. P.\} and Duginov, \{V. N.\} and M. Eads and N. Eggert and A. Epps and R. Fatemi and C. Ferrari and M. Fertl and Fienberg, \{A. T.\} and A. Fioretti and D. Flay and Frankenthal, \{A. S.\} and H. Friedsam and E. Frlez and Froemming, \{N. S.\} and C. Fu and C. Gabbanini and M. Gaisser and S. Ganguly and A. Garcia and J. George and Gibbons, \{L. K.\} and Giovanetti, \{K. L.\} and S. Goadhouse and W. Gohn and T. Gorringe and J. Grange and F. Gray and S. Haciomeroglu and T. Halewood-Leagas and D. Hampai and E. Hazen and S. Henry and Hertzog, \{D. W.\} and Holzbauer, \{J. L.\} and M. Iacovacci and C. Johnstone and Johnstone, \{J. A.\} and K. Jungmann and Sayed, \{H. Kamal\} and P. Kammel and M. Karuza and J. Kaspar and D. Kawall and L. Kelton and Khaw, \{K. S.\} and Khomutov, \{N. V.\} and B. Kiburg and Kim, \{S. C.\} and Kim, \{Y. I.\} and B. King and N. Kinnaird and Koop, \{I. A.\} and I. Kourbanis and Krylov, \{V. A.\} and A. Kuchibhotla and Kuchinskiy, \{N. A.\} and M. Lancaster and Lee, \{M. J.\} and S. Lee and S. Leo and L. Li and I. Logashenko and G. Luo and Lynch, \{K. R.\} and A. Lyon and S. Marignetti and S. Mastroianni and S. Maxfield and M. McEvoy and Z. Meadows and W. Merritt and Mikhailichenko, \{A. A.\} and Miller, \{J. P.\} and Morgan, \{J. P.\} and D. Moricciani and Morse, \{W. M.\} and J. Mott and E. Motuk and H. Nguyen and Y. Orlov and R. Osofsky and Ostiguy, \{J. F.\} and A. Palladino and G. Pauletta and K. Pitts and D. Pocanic and N. Pohlman and C. Polly and J. Price and B. Quinn and N. Raha and E. Ramberg and Rider, \{N. T.\} and Ritchie, \{J. L.\} and Roberts, \{B. L.\} and M. Rominsky and Rubin, \{D. L.\} and L. Santi and C. Schlesier and Semertzidis, \{Y. K.\} and Shatunov, \{Y. M.\} and M. Shenk and A. Smith and Smith, \{M. W.\} and A. Soha and E. Solodov and D. Still and D. St{\"o}ckinger and T. Stuttard and Swanson, \{H. E.\} and Sweigart, \{D. A.\} and Syphers, \{M. J.\} and S. Szustkowski and D. Tarazona and T. Teubner and Tewlsey-Booth, \{A. E.\} and V. Tishchenko and G. Venanzoni and Volnykh, \{V. P.\} and T. Walton and M. Warren and L. Welty-Rieger and M. Whitley and P. Winter and A. Wolski and E. Won and M. Wormald and W. Wu and H. Yang and C. Yoshikawa",

note = "Publisher Copyright: {\textcopyright} Copyright owned by the author(s) under the terms of the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License (CC BY-NC-ND 4.0).; 23rd European Physical Society Conference on High Energy Physics, EPS-HEP 2015 ; Conference date: 22-07-2015 Through 29-07-2015",

year = "2015",

language = "English",

volume = "22-29-July-2015",

journal = "Proceedings of Science",

issn = "1824-8039",

publisher = "Sissa Medialab Srl",

}

Venanzoni, G, Albahri, BAT, Al-Kilani, S, Allspach, D, Alonzi, LP, Anastasi, A, Azfar, F, Babusci, D, Baessler, S, Baranov, VA, Barzi, E, Bjorkquist, R, Bowcock, T, Cantatore, G, Carey, RM, Carroll, J, Casey, B, Cauz, D, Chapelain, A, Chappa, S, Chattopadhyay, S, Chislett, R, Chupp, TE, Convery, M, Corradi, G, Crnkovic, J, Dabagov, S, Debevec, PT, Di Sciascio, G, Di Stefano, R, Drendel, B, Druzhinin, VP, Duginov, VN, Eads, M, Eggert, N, Epps, A, Fatemi, R, Ferrari, C, Fertl, M, Fienberg, AT, Fioretti, A, Flay, D, Frankenthal, AS, Friedsam, H, Frlez, E, Froemming, NS, Fu, C, Gabbanini, C, Gaisser, M, Ganguly, S, Garcia, A, George, J, Gibbons, LK, Giovanetti, KL, Goadhouse, S, Gohn, W, Gorringe, T, Grange, J, Gray, F, Haciomeroglu, S, Halewood-Leagas, T, Hampai, D, Hazen, E, Henry, S, Hertzog, DW, Holzbauer, JL, Iacovacci, M, Johnstone, C, Johnstone, JA, Jungmann, K, Sayed, HK, Kammel, P, Karuza, M, Kaspar, J, Kawall, D, Kelton, L, Khaw, KS, Khomutov, NV, Kiburg, B, Kim, SC, Kim, YI, King, B, Kinnaird, N, Koop, IA, Kourbanis, I, Krylov, VA, Kuchibhotla, A, Kuchinskiy, NA, Lancaster, M, Lee, MJ, Lee, S, Leo, S, Li, L, Logashenko, I, Luo, G, Lynch, KR, Lyon, A, Marignetti, S, Mastroianni, S, Maxfield, S, McEvoy, M, Meadows, Z, Merritt, W, Mikhailichenko, AA, Miller, JP, Morgan, JP, Moricciani, D, Morse, WM, Mott, J, Motuk, E, Nguyen, H, Orlov, Y, Osofsky, R, Ostiguy, JF, Palladino, A, Pauletta, G, Pitts, K, Pocanic, D, Pohlman, N, Polly, C, Price, J, Quinn, B, Raha, N, Ramberg, E, Rider, NT, Ritchie, JL, Roberts, BL, Rominsky, M, Rubin, DL, Santi, L, Schlesier, C, Semertzidis, YK, Shatunov, YM, Shenk, M, Smith, A, Smith, MW, Soha, A, Solodov, E, Still, D, Stöckinger, D, Stuttard, T, Swanson, HE, Sweigart, DA, Syphers, MJ, Szustkowski, S, Tarazona, D, Teubner, T, Tewlsey-Booth, AE, Tishchenko, V, Venanzoni, G, Volnykh, VP, Walton, T, Warren, M, Welty-Rieger, L, Whitley, M, Winter, P, Wolski, A, Won, E, Wormald, M, Wu, W, Yang, H & Yoshikawa, C 2015, 'The new muon g-2 Experiment at Fermilab', Proceedings of Science, vol. 22-29-July-2015, 568.

TY - JOUR

T1 - The new muon g-2 Experiment at Fermilab

AU - Venanzoni, Graziano

AU - Albahri, B. Abi T.

AU - Al-Kilani, S.

AU - Allspach, D.

AU - Alonzi, L. P.

AU - Anastasi, A.

AU - Azfar, F.

AU - Babusci, D.

AU - Baessler, S.

AU - Baranov, V. A.

AU - Barzi, E.

AU - Bjorkquist, R.

AU - Bowcock, T.

AU - Cantatore, G.

AU - Carey, R. M.

AU - Carroll, J.

AU - Casey, B.

AU - Cauz, D.

AU - Chapelain, A.

AU - Chappa, S.

AU - Chattopadhyay, S.

AU - Chislett, R.

AU - Chupp, T. E.

AU - Convery, M.

AU - Corradi, G.

AU - Crnkovic, J.

AU - Dabagov, S.

AU - Debevec, P. T.

AU - Di Sciascio, G.

AU - Di Stefano, R.

AU - Drendel, B.

AU - Druzhinin, V. P.

AU - Duginov, V. N.

AU - Eads, M.

AU - Eggert, N.

AU - Epps, A.

AU - Fatemi, R.

AU - Ferrari, C.

AU - Fertl, M.

AU - Fienberg, A. T.

AU - Fioretti, A.

AU - Flay, D.

AU - Frankenthal, A. S.

AU - Friedsam, H.

AU - Frlez, E.

AU - Froemming, N. S.

AU - Fu, C.

AU - Gabbanini, C.

AU - Gaisser, M.

AU - Ganguly, S.

AU - Garcia, A.

AU - George, J.

AU - Gibbons, L. K.

AU - Giovanetti, K. L.

AU - Goadhouse, S.

AU - Gohn, W.

AU - Gorringe, T.

AU - Grange, J.

AU - Gray, F.

AU - Haciomeroglu, S.

AU - Halewood-Leagas, T.

AU - Hampai, D.

AU - Hazen, E.

AU - Henry, S.

AU - Hertzog, D. W.

AU - Holzbauer, J. L.

AU - Iacovacci, M.

AU - Johnstone, C.

AU - Johnstone, J. A.

AU - Jungmann, K.

AU - Sayed, H. Kamal

AU - Kammel, P.

AU - Karuza, M.

AU - Kaspar, J.

AU - Kawall, D.

AU - Kelton, L.

AU - Khaw, K. S.

AU - Khomutov, N. V.

AU - Kiburg, B.

AU - Kim, S. C.

AU - Kim, Y. I.

AU - King, B.

AU - Kinnaird, N.

AU - Koop, I. A.

AU - Kourbanis, I.

AU - Krylov, V. A.

AU - Kuchibhotla, A.

AU - Kuchinskiy, N. A.

AU - Lancaster, M.

AU - Lee, M. J.

AU - Lee, S.

AU - Leo, S.

AU - Li, L.

AU - Logashenko, I.

AU - Luo, G.

AU - Lynch, K. R.

AU - Lyon, A.

AU - Marignetti, S.

AU - Mastroianni, S.

AU - Maxfield, S.

AU - McEvoy, M.

AU - Meadows, Z.

AU - Merritt, W.

AU - Mikhailichenko, A. A.

AU - Miller, J. P.

AU - Morgan, J. P.

AU - Moricciani, D.

AU - Morse, W. M.

AU - Mott, J.

AU - Motuk, E.

AU - Nguyen, H.

AU - Orlov, Y.

AU - Osofsky, R.

AU - Ostiguy, J. F.

AU - Palladino, A.

AU - Pauletta, G.

AU - Pitts, K.

AU - Pocanic, D.

AU - Pohlman, N.

AU - Polly, C.

AU - Price, J.

AU - Quinn, B.

AU - Raha, N.

AU - Ramberg, E.

AU - Rider, N. T.

AU - Ritchie, J. L.

AU - Roberts, B. L.

AU - Rominsky, M.

AU - Rubin, D. L.

AU - Santi, L.

AU - Schlesier, C.

AU - Semertzidis, Y. K.

AU - Shatunov, Y. M.

AU - Shenk, M.

AU - Smith, A.

AU - Smith, M. W.

AU - Soha, A.

AU - Solodov, E.

AU - Still, D.

AU - Stöckinger, D.

AU - Stuttard, T.

AU - Swanson, H. E.

AU - Sweigart, D. A.

AU - Syphers, M. J.

AU - Szustkowski, S.

AU - Tarazona, D.

AU - Teubner, T.

AU - Tewlsey-Booth, A. E.

AU - Tishchenko, V.

AU - Venanzoni, G.

AU - Volnykh, V. P.

AU - Walton, T.

AU - Warren, M.

AU - Welty-Rieger, L.

AU - Whitley, M.

AU - Winter, P.

AU - Wolski, A.

AU - Won, E.

AU - Wormald, M.

AU - Wu, W.

AU - Yang, H.

AU - Yoshikawa, C.

N1 - Publisher Copyright: © Copyright owned by the author(s) under the terms of the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License (CC BY-NC-ND 4.0).

PY - 2015

Y1 - 2015

N2 - There is a long standing discrepancy between the Standard Model prediction for the muon g-2 and the value measured by the Brookhaven E821 Experiment. At present the discrepancy stands at about three standard deviations, with a comparable accuracy between experiment and theory. Two new proposals - at Fermilab and J-PARC - plan to improve the experimental uncertainty by a factor of 4, and it is expected that there will be a significant reduction in the uncertainty of the Standard Model prediction. I will review the status of the planned experiment at Fermilab, E989, which will analyse 21 times more muons than the BNL experiment and discuss how the systematic uncertainty will be reduced by a factor of 3 such that a precision of 0.14 ppm can be achieved.

AB - There is a long standing discrepancy between the Standard Model prediction for the muon g-2 and the value measured by the Brookhaven E821 Experiment. At present the discrepancy stands at about three standard deviations, with a comparable accuracy between experiment and theory. Two new proposals - at Fermilab and J-PARC - plan to improve the experimental uncertainty by a factor of 4, and it is expected that there will be a significant reduction in the uncertainty of the Standard Model prediction. I will review the status of the planned experiment at Fermilab, E989, which will analyse 21 times more muons than the BNL experiment and discuss how the systematic uncertainty will be reduced by a factor of 3 such that a precision of 0.14 ppm can be achieved.

UR - https://www.scopus.com/pages/publications/84988661193

M3 - Conference article

AN - SCOPUS:84988661193

SN - 1824-8039

VL - 22-29-July-2015

JO - Proceedings of Science

JF - Proceedings of Science

M1 - 568

T2 - 23rd European Physical Society Conference on High Energy Physics, EPS-HEP 2015

Y2 - 22 July 2015 through 29 July 2015

ER -

The new muon g-2 Experiment at Fermilab

Abstract

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