**
Below is the ascii version of the abstract for 06-274.
The html version should be ready soon.**Domokos Sz\'asz, Tam\'as Varj\'u
Limit Laws and Recurrence for the Planar Lorentz Process with Infinite Horizon
(702K, LaTeX 2e with 3 PS Figures)
ABSTRACT. As Bleher observed the free flight vector of the planar, infinite horizon, periodic Lorentz process $\{S_n | n=0, 1, 2, \dots \}$ belongs to the non-standard domain of attraction of the Gaussian law --- actually with the $\sqrt{n \log n}$ scaling. Our first aim is to establish his conjecture that, indeed, $\frac{S_n}{\sqrt{n \log n}}$ converges in distribution to the Gaussian law (a Global Limit Theorem). Here the recent method of B\'alint and Gou\"ezel, \cite{BG} helped us to essentially simplify the ideas of our earlier sketchy proof. Moreover, we can also derive a.) the local version of the Global Limit Theorem, b.) the recurrence of the planar, infinite horizon, periodic Lorentz process, and finally c.) the ergodicity of its infinite invariant measure.