Beam emittance growth caused by transverse deflecting fields in a linear accelerator

Abstract: The effect of the beam-generated transverse deflecting fields on the emittance of an intense bunch of particles in a high-energy linear accelerator is analyzed in this paper. The equation of motion is solved by a perturbation method for cases of a coasting beam and a uniformly accelerated beam. The results are applied to obtain some design tolerance specifications for the recently proposed SLAC Single Pass Collider.

“…In the following we will consider special cases of the general equation of motion [34,35] given by 1 …”

“…Here ρ(z) is the longitudinal distribution function of the beam which, in the approximation of zero transverse dimension as in reference [34], is equal to the line density of particles in the bunch. This approximation is valid provided that the beam sizes are much less than that of the vacuum chamber so that the transverse wakefield may be taken to be uniform across the bunch's transverse dimensions.…”

“…In general, the deviation of the particle trajectory is given by 1) the original notation of refs. [34] and [35] has been modified slightly noting…”

“…Through the early 1990's emittance dilutions were controlled by imposing tight tolerances on injection errors as precursor to BNS damping [11,34], steering using both one-to-one correction and localized beam-based alignment [7,54], and by invoking BNS damping. As the beam currents were increased, a more localized emittance preservation technique was developed in which empirically determined trajectory oscillations ('bumps') were used to cancel emittance dilutions from transverse wakefields and dispersive errors.…”

Emittance preservation in linear accelerators

“…In the following we will consider special cases of the general equation of motion [34,35] given by 1 …”

“…Here ρ(z) is the longitudinal distribution function of the beam which, in the approximation of zero transverse dimension as in reference [34], is equal to the line density of particles in the bunch. This approximation is valid provided that the beam sizes are much less than that of the vacuum chamber so that the transverse wakefield may be taken to be uniform across the bunch's transverse dimensions.…”

“…In general, the deviation of the particle trajectory is given by 1) the original notation of refs. [34] and [35] has been modified slightly noting…”

“…Through the early 1990's emittance dilutions were controlled by imposing tight tolerances on injection errors as precursor to BNS damping [11,34], steering using both one-to-one correction and localized beam-based alignment [7,54], and by invoking BNS damping. As the beam currents were increased, a more localized emittance preservation technique was developed in which empirically determined trajectory oscillations ('bumps') were used to cancel emittance dilutions from transverse wakefields and dispersive errors.…”

Emittance preservation in linear accelerators

“…22 a perturbation approach is used to solve Eq. (4.1) for a rectangular charge distribution under certain assumptions.…”

Wakefield effects in a linear collider

Observation of high current effects in high energy linear accelerators