Use of a linear paul trap to study random noise-induced beam degradation in high-intensity accelerators

Moses Chung; Erik P. Gilson; Ronald C. Davidson; Philip C. Efthimion; Richard Majeski

doi:10.1103/PhysRevLett.102.145003

Use of a linear paul trap to study random noise-induced beam degradation in high-intensity accelerators

Moses Chung, Erik P. Gilson, Ronald C. Davidson, Philip C. Efthimion, Richard Majeski

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10 Scopus citations

Abstract

A random noise-induced beam degradation that can affect intense beam transport over long propagation distances has been experimentally studied by making use of the transverse beam dynamics equivalence between an alternating-gradient (AG) focusing system and a linear Paul trap system. For the present studies, machine imperfections in the quadrupole focusing lattice are considered, which are emulated by adding small random noise on the voltage waveform of the quadrupole electrodes in the Paul trap. It is observed that externally driven noise continuously produces a nonthermal tail of trapped ions, and increases the transverse emittance almost linearly with the duration of the noise.

Original language	English (US)
Article number	145003
Journal	Physical review letters
Volume	102
Issue number	14
DOIs	https://doi.org/10.1103/PhysRevLett.102.145003
State	Published - Apr 6 2009

All Science Journal Classification (ASJC) codes

General Physics and Astronomy

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10.1103/PhysRevLett.102.145003

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abstract = "A random noise-induced beam degradation that can affect intense beam transport over long propagation distances has been experimentally studied by making use of the transverse beam dynamics equivalence between an alternating-gradient (AG) focusing system and a linear Paul trap system. For the present studies, machine imperfections in the quadrupole focusing lattice are considered, which are emulated by adding small random noise on the voltage waveform of the quadrupole electrodes in the Paul trap. It is observed that externally driven noise continuously produces a nonthermal tail of trapped ions, and increases the transverse emittance almost linearly with the duration of the noise.",

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AU - Gilson, Erik P.

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AU - Efthimion, Philip C.

AU - Majeski, Richard

PY - 2009/4/6

Y1 - 2009/4/6

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AB - A random noise-induced beam degradation that can affect intense beam transport over long propagation distances has been experimentally studied by making use of the transverse beam dynamics equivalence between an alternating-gradient (AG) focusing system and a linear Paul trap system. For the present studies, machine imperfections in the quadrupole focusing lattice are considered, which are emulated by adding small random noise on the voltage waveform of the quadrupole electrodes in the Paul trap. It is observed that externally driven noise continuously produces a nonthermal tail of trapped ions, and increases the transverse emittance almost linearly with the duration of the noise.

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Use of a linear paul trap to study random noise-induced beam degradation in high-intensity accelerators

Abstract

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