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@ARTICLE{Slim:905287,
author = {Slim, Jamal and Nikolaev, Nikolai N. and Rathmann, F. and
Wirzba, A. and Nass, A. and Hejny, V. and Pretz, J. and
Soltner, H. and Abusaif, F. and Aggarwal, A. and Aksentev,
A. and Andres, A. and Barion, L. and Ciullo, G. and Dymov,
S. and Gebel, R. and Gaisser, M. and Grigoryev, K. and
Grzonka, D. and Javakhishvili, O. and Kacharava, A. and
Kamerdzhiev, V. and Karanth, S. and Keshelashvili, I. and
Lehrach, A. and Lenisa, P. and Lomidze, N. and Lorentz, B.
and Magiera, A. and Mchedlishvili, D. and Müller, Fabian
and Pesce, A. and Poncza, V. and Prasuhn, D. and Saleev, A.
and Shmakova, Vera and Stroeher, Hans and Tabidze, M. and
Tagliente, G. and Valdau, Y. and Wagner, T. and Weidemann,
C. and Wrońska, A. and Żurek, M.},
title = {{F}irst detection of collective oscillations of a stored
deuteron beam with an amplitude close to the quantum limit},
journal = {Physical review accelerators and beams},
volume = {24},
number = {12},
issn = {1098-4402},
address = {College Park, MD},
publisher = {American Physical Society},
reportid = {FZJ-2022-00558},
pages = {124601},
year = {2021},
abstract = {We investigated coherent betatron oscillations of a
deuteron beam in the storage ring cooler synchrotron and
storage ring, excited by a detuned rf Wien filter (WF). The
beam oscillations were detected by conventional beam
position monitors. With the currently available apparatus,
we show that oscillation amplitudes down to 1 μm can
be detected. The interpretation of the response of the
stored beam to the detuned rf WF is based on simulations of
the beam evolution in the lattice of the ring and realistic
time-dependent 3D field maps of the WF. Future measurements
of the electric dipole moment of protons will, however,
require control of the relative position of
counter-propagating beams in the sub-picometer range. Since
here the stored beam can be considered as a rarefied gas of
uncorrelated particles, we moreover demonstrate that the
amplitudes of the zero-point (ground state) betatron
oscillations of individual particles are only a factor of
about 10 larger than the Heisenberg uncertainty limit. As a
consequence of this, we conclude that quantum mechanics does
not preclude the control of the beam centroids to
sub-picometer accuracy. The smallest Lorentz force exerted
on a single particle that we have been able to determine is
10 aN.},
cin = {IKP-2 / IAS-4 / ZEA-1 / IKP-4 / IKP-1},
ddc = {530},
cid = {I:(DE-Juel1)IKP-2-20111104 / I:(DE-Juel1)IAS-4-20090406 /
I:(DE-Juel1)ZEA-1-20090406 / I:(DE-Juel1)IKP-4-20111104 /
I:(DE-Juel1)IKP-1-20111104},
pnm = {613 - Matter and Radiation from the Universe (POF4-613) /
srEDM - Search for electric dipole moments using storage
rings (694340)},
pid = {G:(DE-HGF)POF4-613 / G:(EU-Grant)694340},
experiment = {EXP:(DE-Juel1)JEDI-20170712},
typ = {PUB:(DE-HGF)16},
UT = {WOS:000759207900001},
doi = {10.1103/PhysRevAccelBeams.24.124601},
url = {https://juser.fz-juelich.de/record/905287},
}
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