Physics – Condensed Matter – Statistical Mechanics
Scientific paper
2009-01-10
Physics
Condensed Matter
Statistical Mechanics
29 pages, 14 figures
Scientific paper
Motivated by recent experimental results in ultra-thin helimagnetic Holmium films, we have performed an extensive classical Monte Carlo simulation of films of different thickness, assuming a Hamiltonian with six inter-layer exchange constants. Both magnetic structure and critical properties have been analyzed. For n>16 (n being the number of spin layers in the film) a correct bulk limit is reached, while for lower n the film properties are clearly affected by the strong competition among the helical pitch and the surface effects, which involve the majority of the spin layers: In the thickness range n=9-16 three different magnetic phases emerge, with the high-temperature, disordered, paramagnetic phase and the low-temperature, long-range ordered one separated by an intriguing intermediate-temperature block phase, where outer ordered layers coexist with some inner, disordered ones. The phase transition of these inner layers displays the signatures of a Kosterlitz-Thouless one. Finally, for n<~7 the film collapse once and for all to a quasi-collinear order. A comparison of our Monte Carlo simulation outcomes with available experimental data is also proposed, and further experimental investigations are suggested.
Cinti Fabio
Cuccoli Alessandro
Rettori Angelo
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