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New method for a continuous determination of the spin tune in storage rings and implications for precision experiments. / Eversmann, D.; Hejny, V.; Hinder, F.; Kacharava, A.; Pretz, J.; Rathmann, F.; Rosenthal, M.; Trinkel, F.; Andrianov, S.; Augustyniak, W.; Bagdasarian, Z.; Bai, M.; Bernreuther, W.; Bertelli, S.; Berz, M.; Bsaisou, J.; Chekmenev, S.; Chiladze, D.; Ciullo, G.; Contalbrigo, M.; de Vries, J.; Dymov, S.; Engels, R.; Esser, F. M.; Felden, O.; Gaisser, M.; Gebel, R.; Glueckler, H.; Goldenbaum, F.; Grigoryev, K.; Grzonka, D.; Guidoboni, G.; Hanhart, C.; Heberling, D.; Hempelmann, N.; Hetzel, J.; Hipple, R.; Hoelscher, D.; Ivanov, A.; Kamerdzhiev, V.; Kamys, B.; Keshelashvili, I.; Khoukaz, A.; Koop, I.; Krause, H-J.; Krewald, S.; Kulikov, A.; Lehrach, A.; Lenisa, P.; Lorentz, B.; Maanen, P.; Macharashvili, G.; Magiera, A.; Maier, R.; Makino, K.; Marianski, B.; Mchedlishvili, D.; Meiner, Ulf-G.; Mey, S.; Nass, A.; Natour, G.; Nikolaev, N.; Nogga, A.; Nowakowski, K.; Pesce, A.; Prasuhn, D.; Ritman, J.; Rudy, Z.; Saleev, A.; Semertzidis, Y.; Senichev, Y.; Shmakova, V.; Silenko, A.; Slim, J.; Soltner, H.; Stahl, A.; Stassen, R.; Statera, M.; Stephenson, E.; Stockhorst, H.; Straatmann, H.; Stroeher, H.; Talman, R.; Engblom, P. Thoerngren; Trzcinski, A.; Uzikov, Yu.; Valdau, Yu.; Valetov, E.; Vassiliev, A.; Weidemann, C.; Wilkin, C.; Wirzba, A.; Wronska, A.; Wuestner, P.; Zakrzewska, M.; Zupranski, P.; Zyuzin, D.
In:
Physical Review Letters, Vol. 115, No. 9, 2015.
Research output: Contribution to journal › Article
Harvard
Eversmann, D, Hejny, V, Hinder, F, Kacharava, A, Pretz, J, Rathmann, F, Rosenthal, M, Trinkel, F
, Andrianov, S, Augustyniak, W, Bagdasarian, Z, Bai, M, Bernreuther, W, Bertelli, S, Berz, M, Bsaisou, J, Chekmenev, S, Chiladze, D, Ciullo, G, Contalbrigo, M, de Vries, J, Dymov, S, Engels, R, Esser, FM, Felden, O, Gaisser, M, Gebel, R, Glueckler, H, Goldenbaum, F, Grigoryev, K, Grzonka, D, Guidoboni, G, Hanhart, C, Heberling, D, Hempelmann, N, Hetzel, J, Hipple, R, Hoelscher, D, Ivanov, A, Kamerdzhiev, V, Kamys, B, Keshelashvili, I, Khoukaz, A, Koop, I, Krause, H-J, Krewald, S, Kulikov, A, Lehrach, A, Lenisa, P, Lorentz, B, Maanen, P, Macharashvili, G, Magiera, A, Maier, R, Makino, K, Marianski, B, Mchedlishvili, D, Meiner, U-G, Mey, S, Nass, A, Natour, G, Nikolaev, N, Nogga, A, Nowakowski, K, Pesce, A, Prasuhn, D, Ritman, J, Rudy, Z, Saleev, A, Semertzidis, Y, Senichev, Y, Shmakova, V, Silenko, A, Slim, J, Soltner, H, Stahl, A, Stassen, R, Statera, M, Stephenson, E, Stockhorst, H, Straatmann, H, Stroeher, H, Talman, R, Engblom, PT, Trzcinski, A, Uzikov, Y, Valdau, Y, Valetov, E, Vassiliev, A, Weidemann, C, Wilkin, C, Wirzba, A, Wronska, A, Wuestner, P, Zakrzewska, M, Zupranski, P & Zyuzin, D 2015, '
New method for a continuous determination of the spin tune in storage rings and implications for precision experiments',
Physical Review Letters, vol. 115, no. 9.
https://doi.org/10.1103/PhysRevLett.115.094801
APA
Eversmann, D., Hejny, V., Hinder, F., Kacharava, A., Pretz, J., Rathmann, F., Rosenthal, M., Trinkel, F.
, Andrianov, S., Augustyniak, W., Bagdasarian, Z., Bai, M., Bernreuther, W., Bertelli, S., Berz, M., Bsaisou, J., Chekmenev, S., Chiladze, D., Ciullo, G., ... Zyuzin, D. (2015).
New method for a continuous determination of the spin tune in storage rings and implications for precision experiments.
Physical Review Letters,
115(9).
https://doi.org/10.1103/PhysRevLett.115.094801
Vancouver
Author
Eversmann, D. ; Hejny, V. ; Hinder, F. ; Kacharava, A. ; Pretz, J. ; Rathmann, F. ; Rosenthal, M. ; Trinkel, F.
; Andrianov, S. ; Augustyniak, W. ; Bagdasarian, Z. ; Bai, M. ; Bernreuther, W. ; Bertelli, S. ; Berz, M. ; Bsaisou, J. ; Chekmenev, S. ; Chiladze, D. ; Ciullo, G. ; Contalbrigo, M. ; de Vries, J. ; Dymov, S. ; Engels, R. ; Esser, F. M. ; Felden, O. ; Gaisser, M. ; Gebel, R. ; Glueckler, H. ; Goldenbaum, F. ; Grigoryev, K. ; Grzonka, D. ; Guidoboni, G. ; Hanhart, C. ; Heberling, D. ; Hempelmann, N. ; Hetzel, J. ; Hipple, R. ; Hoelscher, D. ; Ivanov, A. ; Kamerdzhiev, V. ; Kamys, B. ; Keshelashvili, I. ; Khoukaz, A. ; Koop, I. ; Krause, H-J. ; Krewald, S. ; Kulikov, A. ; Lehrach, A. ; Lenisa, P. ; Lorentz, B. ; Maanen, P. ; Macharashvili, G. ; Magiera, A. ; Maier, R. ; Makino, K. ; Marianski, B. ; Mchedlishvili, D. ; Meiner, Ulf-G. ; Mey, S. ; Nass, A. ; Natour, G. ; Nikolaev, N. ; Nogga, A. ; Nowakowski, K. ; Pesce, A. ; Prasuhn, D. ; Ritman, J. ; Rudy, Z. ; Saleev, A. ; Semertzidis, Y. ; Senichev, Y. ; Shmakova, V. ; Silenko, A. ; Slim, J. ; Soltner, H. ; Stahl, A. ; Stassen, R. ; Statera, M. ; Stephenson, E. ; Stockhorst, H. ; Straatmann, H. ; Stroeher, H. ; Talman, R. ; Engblom, P. Thoerngren ; Trzcinski, A. ; Uzikov, Yu. ; Valdau, Yu. ; Valetov, E. ; Vassiliev, A. ; Weidemann, C. ; Wilkin, C. ; Wirzba, A. ; Wronska, A. ; Wuestner, P. ; Zakrzewska, M. ; Zupranski, P. ; Zyuzin, D. /
New method for a continuous determination of the spin tune in storage rings and implications for precision experiments. In:
Physical Review Letters. 2015 ; Vol. 115, No. 9.
BibTeX
@article{743b6ed9569349cb8bfc0925a5c20228,
title = "New method for a continuous determination of the spin tune in storage rings and implications for precision experiments",
abstract = "A new method to determine the spin tune is described and tested. In an ideal planar magnetic ring, the spin tune – defined as the number of spin precessions per turn – is given by νs = γ • G (γ is the Lorentz factor, G the magnetic anomaly). For 970MeV/c deuterons coherently recessing with a frequency of ≈120 kHz in the Cooler Synchrotron COSY, the spin tune is deduced from the up-down asymmetry of deuteron carbon scattering. In a time interval of 2.6 s, the spin tune was determined with a precision of the order 10−8, and to 1•10−10 for a continuous 100 s accelerator cycle. This renders the presented method a new precision tool for accelerator physics: controlling the spin motion of particles to high precision is mandatory, in particular, for the measurement of electric dipole moments of charged particles in a storage ring.",
keywords = "Magnetic ring, the spin tune, Cooler Synchrotron COSY, spin tune, precision tool for accelerator physics, controlling the spin motion, the measurement of electric dipole moments",
author = "D. Eversmann and V. Hejny and F. Hinder and A. Kacharava and J. Pretz and F. Rathmann and M. Rosenthal and F. Trinkel and S. Andrianov and W. Augustyniak and Z. Bagdasarian and M. Bai and W. Bernreuther and S. Bertelli and M. Berz and J. Bsaisou and S. Chekmenev and D. Chiladze and G. Ciullo and M. Contalbrigo and {de Vries}, J. and S. Dymov and R. Engels and Esser, {F. M.} and O. Felden and M. Gaisser and R. Gebel and H. Glueckler and F. Goldenbaum and K. Grigoryev and D. Grzonka and G. Guidoboni and C. Hanhart and D. Heberling and N. Hempelmann and J. Hetzel and R. Hipple and D. Hoelscher and A. Ivanov and V. Kamerdzhiev and B. Kamys and I. Keshelashvili and A. Khoukaz and I. Koop and H-J. Krause and S. Krewald and A. Kulikov and A. Lehrach and P. Lenisa and B. Lorentz and P. Maanen and G. Macharashvili and A. Magiera and R. Maier and K. Makino and B. Marianski and D. Mchedlishvili and Ulf-G. Meiner and S. Mey and A. Nass and G. Natour and N. Nikolaev and A. Nogga and K. Nowakowski and A. Pesce and D. Prasuhn and J. Ritman and Z. Rudy and A. Saleev and Y. Semertzidis and Y. Senichev and V. Shmakova and A. Silenko and J. Slim and H. Soltner and A. Stahl and R. Stassen and M. Statera and E. Stephenson and H. Stockhorst and H. Straatmann and H. Stroeher and R. Talman and Engblom, {P. Thoerngren} and A. Trzcinski and Yu. Uzikov and Yu. Valdau and E. Valetov and A. Vassiliev and C. Weidemann and C. Wilkin and A. Wirzba and A. Wronska and P. Wuestner and M. Zakrzewska and P. Zupranski and D. Zyuzin",
year = "2015",
doi = "10.1103/PhysRevLett.115.094801",
language = "English",
volume = "115",
journal = "Physical Review Letters",
issn = "0031-9007",
publisher = "American Physical Society",
number = "9",
}
RIS
TY - JOUR
T1 - New method for a continuous determination of the spin tune in storage rings and implications for precision experiments
AU - Eversmann, D.
AU - Hejny, V.
AU - Hinder, F.
AU - Kacharava, A.
AU - Pretz, J.
AU - Rathmann, F.
AU - Rosenthal, M.
AU - Trinkel, F.
AU - Andrianov, S.
AU - Augustyniak, W.
AU - Bagdasarian, Z.
AU - Bai, M.
AU - Bernreuther, W.
AU - Bertelli, S.
AU - Berz, M.
AU - Bsaisou, J.
AU - Chekmenev, S.
AU - Chiladze, D.
AU - Ciullo, G.
AU - Contalbrigo, M.
AU - de Vries, J.
AU - Dymov, S.
AU - Engels, R.
AU - Esser, F. M.
AU - Felden, O.
AU - Gaisser, M.
AU - Gebel, R.
AU - Glueckler, H.
AU - Goldenbaum, F.
AU - Grigoryev, K.
AU - Grzonka, D.
AU - Guidoboni, G.
AU - Hanhart, C.
AU - Heberling, D.
AU - Hempelmann, N.
AU - Hetzel, J.
AU - Hipple, R.
AU - Hoelscher, D.
AU - Ivanov, A.
AU - Kamerdzhiev, V.
AU - Kamys, B.
AU - Keshelashvili, I.
AU - Khoukaz, A.
AU - Koop, I.
AU - Krause, H-J.
AU - Krewald, S.
AU - Kulikov, A.
AU - Lehrach, A.
AU - Lenisa, P.
AU - Lorentz, B.
AU - Maanen, P.
AU - Macharashvili, G.
AU - Magiera, A.
AU - Maier, R.
AU - Makino, K.
AU - Marianski, B.
AU - Mchedlishvili, D.
AU - Meiner, Ulf-G.
AU - Mey, S.
AU - Nass, A.
AU - Natour, G.
AU - Nikolaev, N.
AU - Nogga, A.
AU - Nowakowski, K.
AU - Pesce, A.
AU - Prasuhn, D.
AU - Ritman, J.
AU - Rudy, Z.
AU - Saleev, A.
AU - Semertzidis, Y.
AU - Senichev, Y.
AU - Shmakova, V.
AU - Silenko, A.
AU - Slim, J.
AU - Soltner, H.
AU - Stahl, A.
AU - Stassen, R.
AU - Statera, M.
AU - Stephenson, E.
AU - Stockhorst, H.
AU - Straatmann, H.
AU - Stroeher, H.
AU - Talman, R.
AU - Engblom, P. Thoerngren
AU - Trzcinski, A.
AU - Uzikov, Yu.
AU - Valdau, Yu.
AU - Valetov, E.
AU - Vassiliev, A.
AU - Weidemann, C.
AU - Wilkin, C.
AU - Wirzba, A.
AU - Wronska, A.
AU - Wuestner, P.
AU - Zakrzewska, M.
AU - Zupranski, P.
AU - Zyuzin, D.
PY - 2015
Y1 - 2015
N2 - A new method to determine the spin tune is described and tested. In an ideal planar magnetic ring, the spin tune – defined as the number of spin precessions per turn – is given by νs = γ • G (γ is the Lorentz factor, G the magnetic anomaly). For 970MeV/c deuterons coherently recessing with a frequency of ≈120 kHz in the Cooler Synchrotron COSY, the spin tune is deduced from the up-down asymmetry of deuteron carbon scattering. In a time interval of 2.6 s, the spin tune was determined with a precision of the order 10−8, and to 1•10−10 for a continuous 100 s accelerator cycle. This renders the presented method a new precision tool for accelerator physics: controlling the spin motion of particles to high precision is mandatory, in particular, for the measurement of electric dipole moments of charged particles in a storage ring.
AB - A new method to determine the spin tune is described and tested. In an ideal planar magnetic ring, the spin tune – defined as the number of spin precessions per turn – is given by νs = γ • G (γ is the Lorentz factor, G the magnetic anomaly). For 970MeV/c deuterons coherently recessing with a frequency of ≈120 kHz in the Cooler Synchrotron COSY, the spin tune is deduced from the up-down asymmetry of deuteron carbon scattering. In a time interval of 2.6 s, the spin tune was determined with a precision of the order 10−8, and to 1•10−10 for a continuous 100 s accelerator cycle. This renders the presented method a new precision tool for accelerator physics: controlling the spin motion of particles to high precision is mandatory, in particular, for the measurement of electric dipole moments of charged particles in a storage ring.
KW - Magnetic ring
KW - the spin tune
KW - Cooler Synchrotron COSY
KW - spin tune
KW - precision tool for accelerator physics
KW - controlling the spin motion
KW - the measurement of electric dipole moments
U2 - 10.1103/PhysRevLett.115.094801
DO - 10.1103/PhysRevLett.115.094801
M3 - Article
VL - 115
JO - Physical Review Letters
JF - Physical Review Letters
SN - 0031-9007
IS - 9
ER -