The microscopic bonding behavior of amorphous Cu(x)(As(2)Se(3))(1 - x) (x = 0.00, 0.01, 0.05, 0.10 and 0.20) is studied from the point of view of the viscosity. The model used in this analysis describes the temperature dependence of the viscosity in terms of the mean bond strength Eo, the mean coordination number Z(0), and their fluctuations Delta E, Delta Z of the structural units that form the melt. The model reproduces quite well the temperature dependence of the viscosity of Cu(x)(As(2)Se(3))(1-x) observed experimentally. According to the theory, the fragility of the system increases as the fluctuation of the total bond strength increases. It is shown that the viscous flow is accompanied by the cooperative movements of the structural units and occurs by breaking selectively the weaker parts of the bonds between the structural units. This notion is related to the concept of Cooperatively Rearranging Region (CRR) in the theory of Adam-Gibbs. By analyzing the model, the fluctuation of the total bond strength in Cu-As-Se system is evaluated quantitatively, and the composition dependence of the fragility is discussed in terms of bond strength and the coordination number between the structural units. The analysis suggests that in the Cu(x)(As(2)Se(3))(1 - x) system, there must be a strong composition dependence in the bond strength and a weak composition dependence in the fragility and coordination number fluctuation.

• 出版日期2009-5-14