Physics – High Energy Physics – High Energy Physics - Theory
Scientific paper
1996-05-25
Mod. Phys. Lett. A11 (1996) 1729
Physics
High Energy Physics
High Energy Physics - Theory
10 pp., LaTeX, accepted by "Modern Physics Letters A"
Scientific paper
With a help of the Schwinger --- DeWitt expansion analytical properties of the evolution operator kernel for the Schr\"odinger equation in time variable $t$ are studied for the Coulomb and Coulomb-like (which behaves themselves as $1/|\vec q|$ when $|\vec q| \to 0$) potentials. It turned out to be that the Schwinger --- DeWitt expansion for them is divergent. So, the kernels for these potentials have additional (beyond $\delta$-like) singularity at $t=0$. Hence, the initial condition is fulfilled only in asymptotic sense. It is established that the potentials considered do not belong to the class of potentials, which have at $t=0$ exactly $\delta$-like singularity and for which the initial condition is fulfilled in rigorous sense (such as $V(q) = -\frac{\lambda (\lambda-1)}{2} \frac {1}{\cosh^2 q}$ for integer $\lambda$).
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