Light-front dynamic analysis of the longitudinal charge density using the solvable scalar field model in (1+1) dimensions

Abstract

We investigate the electromagnetic form factor F(q2) of the meson by using the solvable φ3 scalar field model in (1+1) dimensions. As the transverse rotations are absent in (1+1) dimensions, the advantage of the light-front dynamics (LFD) with the light-front time x+ = x0 + x3 as the evolution parameter is maximized in contrast to the usual instant form dynamics (IFD) with the ordinary time x0 as the evolution parameter. In LFD, the individual x+-ordered amplitudes contributing to F(q2) are invariant under the boost, i.e., frame-independent, while the individual x0-ordered amplitudes in IFD are not invariant under the boost but dependent on the reference frame. The LFD allows to get the analytic result for the one-loop triangle diagram which covers not only the spacelike (q2<0) but also timelike region (q2>0). Using the analytic results, we verify that the real and imaginary parts of the form factor satisfy the dispersion relations in the entire q2 space. Comparing with the results in (3+1) dimensions, we discuss the transverse momentum effects on F(q2) . We also discuss the longitudinal charge density in terms of the boost invariant variable z = p+ x- in LFD.

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