PPPL-3790 is available in pdf format (1.8 MB).

Truncated Thermal Equilibrium Distribution for Intense Beam Propagation

Authors: Ronald C. Davidson, Hong Qin, and Steven M. Lund

Date of PPPL Report: February 2003

Presented at: the Forty-fourth Annual Meeting of the APS Division of Plasma Physics, November 11-15, 2002, Orlando, Florida. Submitted to Physics of Plasmas.

An intense charged-particle beam with directed kinetic energy (g _b-1)m_bc² propagates in the z-direction through an applied focusing field with transverse focusing force modeled by F_foc = -g_bm_bw²_b^x_^ in the smooth focusing approximation. This paper examines properties of the axisymmetric, truncated thermal equilibrium distribution F_b(r,p_^) = A exp (-H_^/_^_b) (H_^-E_b), where A, _^_b, and E_b are positive constants, and H_^ is the Hamiltonian for transverse particle motion. The equilibrium profiles for beam number density, n_b(r) =d²pF_b(r,p_^), and transverse temperature, T_^_b(r) = d²p(p²_^/2g_bm_b)F_b(r,p_^), are calculated self-consistently including space-charge effects. Several properties of the equilibrium profiles are noteworthy. For example, the beam has a sharp outer edge radius r_b with n_b (r greater than or equal to r_b) = 0, where r_b depends on the value of E_b/_^_b. In addition, unlike the choice of a semi-Gaussian distribution, F _b^SG = A exp (-p²_^/2g_bm_b_^b(r-r_b), the truncated thermal equilibrium distribution F_b(r,p) depends on (r,p) only through the single-particle constant of the motion H_^ and is therefore a true steady-state solution (/t = 0) of the nonlinear Vlasov-Maxwell equations.