O. C. Martin, M. Mezard, O. Rivoire
Published 2004-07-23Version 1
The multi-index matching is an NP-hard combinatorial optimization problem; for two indices it reduces to the well understood bipartite matching problem that belongs to the polynomial complexity class. We use the cavity method to solve the thermodynamics of the multi-index system with random costs. The phase diagram is much richer than for the case of the bipartite matching problem: it shows a finite temperature phase transition to a completely frozen glass phase, similar to what happens in the random energy model. We derive the critical temperature, the ground state energy density, and properties of the energy landscape, and compare the results to numerical studies based on exact analysis of small systems.
Journal: Physical Review Letters 93 (2004) 217205
Finite temperature phase transition in the two-dimension Randomly Coupled Ferromagnet
Finite temperature phase transition for disordered weakly interacting bosons in one dimension
Finite temperature phase transition in the two-dimensional Coulomb glass at low disorders
