L.J. Laslett scite author profile

The transverse electromagnetic interaction of an intense azimuthally uniform beam of particles with itself, including the effect of a resistive vacuum tank, is investigated theoretically. It is shown that a beam of particles all having velocity ν is unstable against the development of transverse waves having a phase velocity close to (1 − v/n)ν, where v is the number of transverse free betatron oscillations occurring in one revolution and n is a positive integer greater than v. The growth rate for the instability is proportional to N/σ½, where N is the number of particles in the beam and σ is the conductivity of the surface material of the vacuum tank. Stabilizing mechanisms are examined by means of the Vlasov equation and it is shown that a spread in the quantity (n−v)ν, evaluated for particles in the unperturbed beam, will prevent the instability. A criterion for the spread required is shown, in the limit of walls of high conductivity, to depend upon the beam intensity and energy as well as upon certain geometrical properties of the accelerator, but not upon the conductivity. Numerical examples covering a range of particle accelerators are presented, and suggest that the theory is in agreement with the coherent beam behavior recently observed in a number of accelerators.

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Attainment of Very High Energy by Means of Intersecting Beams of Particles

Kerst¹,

Cole²,

Crane³

et al. 1956

Phys. Rev.

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It is now easy to see that a linear relation exists also between energy differences in the two configurations. If we add to the interactions Vij a constant term -EQ (EO might be chosen to be the energy of the ground state in the ^3/2/7/2 configuration), it will contribute to all levels of the configuration ^3/2/7/2 the same energy -EQ, and to all levels of the dziifi^ configuration the same energy -3Eo. Thus we obtain the following relations, where £^=£(^3/2/7/2/) and E/^E{d zl if v J):

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Transportable Charge in a Periodic Alternating Gradient System

Lee

Fessenden

Laslett

1985

IEEE Trans. Nucl. Sci.

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L.J. Laslett

Fixed-Field Alternating-Gradient Particle Accelerators

Transverse Resistive Instabilities of Intense Coasting Beams in Particle Accelerators

Attainment of Very High Energy by Means of Intersecting Beams of Particles

Transportable Charge in a Periodic Alternating Gradient System

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