We study particle creation from the vacuum by external electric fields
, in particular, by fields, which are acting for a finite time, in the
frame of QED in arbitrary space-time dimensions. In all the cases spe
cial sets of exact solutions of the Dirac equation (in and out solutio
ns) are constructed. Using them, the characteristics of the effect are
calculated. The time and dimensional analyses of the vacuum instabili
ty are presented. It is shown that the distributions of particles crea
ted by quasiconstant electric fields can be written in a form which ha
s a thermal character and which seems to be universal, i.e., is valid
for any theory with quasiconstant external fields. Its application, fo
r example, to particle creation in an external constant gravitational
field reproduces the Hawking temperature exactly.