Coexistence of two universal relaxations in the glassy freezing of a deuteron dipole glass
A deuteron dipole glass Rb1-x (ND4)(x)D2PO4 (DRADP-x, x = 0.47) was studied on glassy freezing by low-frequency dielectric measurements at low temperatures of slow dynamic freezing. A very broad distribution of relaxation times (relaxation frequencies) was observed to show an apparent crossover behavior from the relaxation time distributions with a long-time (low-frequency) tail to the distributions with a short-time (high-frequency) tail as temperature was lowered to below 40 K. We show that this apparent crossover behavior may be originated by two competing relaxations in coexistence: one characterized by an Arrhenius law and the other by an inverse Arrhenius law temperature dependence, corresponding to the two slow-relaxation modes (C < 0 and C > 0) of the dynamically correlated domains (DCDs) model of Chamberlin et al.
- Publisher
- E D P SCIENCES
- Issue Date
- 2004-01
- Language
- English
- Article Type
- Article
- Keywords
TIME DISTRIBUTION FUNCTION; DYNAMIC-BEHAVIOR; PRIMARY RESPONSE; POLAR NANODOMAINS; MIXED-CRYSTAL; SPIN-GLASSES; MODEL; RB1-X(NH4)XH2PO4; MAGNETIZATION; K1-XLIXTAO3
- Citation
EUROPHYSICS LETTERS, v.65, no.1, pp.55 - 60
- ISSN
- 0295-5075
- Appears in Collection
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