Rc. Davidson et al., Stabilizing influence of axial momentum spread on the two-stream instability in intense heavy ion beams, NUCL INST A, 464(1-3), 2001, pp. 493-501
This paper makes use of the Vlasov-Maxwell equations to describe the electr
on-ion two-stream instability driven by the directed axial motion of a high
-intensity ion beam propagating through a stationary population of (unwante
d) background electrons in the acceleration region or beam transport lines.
The ion beam is treated as continuous in the z-direction, and the electron
s are electrostatically confined in the transverse direction by the space-c
harge potential produced by the excess ion charge. The analysis is carried
out for arbitrary beam intensity, consistent with transverse confinement of
the beam particles, and arbitrary fractional charge neutralization by the
background electrons. For the case of overlapping step-function ion and ele
ctron density profiles, corresponding to Kapchinskij-Vladimirskij (KV) elec
tron and ion distributions ill the transverse direction, detailed stability
properties are calculated including parallel kinetic effects over a wide r
ange of system parameters for dipole perturbations with azimuthal mode numb
er l = 1. The instability growth rate is found to increase with increasing
beam intensity, increasing fractional charge neutralization, and decreasing
proximity of the conducting wall. For space-charge-dominated beams, it is
shown that Landau damping associated with a modest axial momentum spread of
the beam ions and background electrons has a strong stabilizing influence
on the two-stream instability. (C) 2001 Elsevier Science B.V. All rights re
served.