On the Asymptotic Density in a One-Dimensional Self-Organized Critical Forest-Fire Model

We introduce a deterministic self-organized critical system that is one-dimensional and bulk driven. We ÿnd that there is no unique universality class associated with the system. That is, the critical exponents change as the parameters of the system are changed. This is in contrast with the boundary

## Abstract We study stationary solutions of a one‐dimensional low‐Mach‐number model derived in Gasser and Struckmeier (__Math. Meth. Appl. Sci.__ 2002; **25**(14): 1231) to describe fire events in long tunnels. The existence of solutions of the corresponding stationary model is shown to be equival

We make use of the slave-boson approach to investigate the magnetic properties of the one-dimensional t y J model in Ž . the weak-coupling limit Jt 1 y n , where n is the number of electrons per unit cell. In the mean-field approximation at zero temperature we find that the helix spin-density-wave p

We studied the reactions of humus layer (F/H) microbial respiratory activity, microbial biomass C, and the fungal biomass, measured as the soil ergosterol content, to the application of three levels of wood ash (i000, 2500, and 5000 kg ha-t) and to fire treatment in a Scots pine (Pinus sylvestris L.