Publication Date:
2002
abstract:
In this paper we consider an exactly solvable model that displays glassy behavior at zero temperature due to entropic barriers. The new ingredient of the model is the existence of different energy scales or modes associated with different relaxational time scales. Low-temperature relaxation takes place by partial equilibration of successive lower-energy modes. An adiabatic scaling solution, defined in terms of a threshold energy scale epsilon*, is proposed. For such a solution, modes with energy epsilon>>epsilon* are equilibrated at the bath temperature, modes with epsilon<
Iris type:
01.01 Articolo in rivista
Keywords:
SPIN-GLASS MODEL; URN MODEL; KINETIC ISING-MODEL; EFFECTIVE TEMPERATURES; ENERGY BARRIERS; RELAXATION PROCESSES; SLOW DYNAMICS; GLASS TRANSITION; GLASSY STATE; SUPER-COOLED LIQUIDS; EFFECTIVE THERMODYNAMICS
List of contributors:
Leuzzi, Luca
Published in: