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Structural and vibrational relaxations during aging of an ultralow-expansion glass
We accurately measured the aging of an ultralow-expansion (ULE) glass for 1250 days using a diode laser resonated in the glass cavity at −3.3 °C, where the glass has zero thermal expansion coefficient. We observed that the glass shows exponential and linear decreases in length ΔL(d)/L(0)=A0[exp(−d/τ...
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Published in: | Physica A 2016-05, Vol.449, p.35-42 |
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Main Authors: | , , , |
Format: | Article |
Language: | English |
Subjects: | |
Citations: | Items that this one cites Items that cite this one |
Online Access: | Get full text |
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Summary: | We accurately measured the aging of an ultralow-expansion (ULE) glass for 1250 days using a diode laser resonated in the glass cavity at −3.3 °C, where the glass has zero thermal expansion coefficient. We observed that the glass shows exponential and linear decreases in length ΔL(d)/L(0)=A0[exp(−d/τ0)−1]−K0×d, where d is the day, τ0 is the relaxation time, and A0 and K0 are constants. Equation shows the structural relaxation with a spontaneous linear contraction after the termination of a classical exponential contraction. It was observed that the rate of linear contraction K0 becomes slightly smaller after an extremely long aging time. These results indicate that after prolonged aging, the length of the glass spontaneously decreases at a constant rate with respect to time, and that its linear contraction becomes weaker due to glass densification.
In addition, it is theoretically shown that glass aging is a nonlinear irreversible process with the spontaneous relaxations of a linear contraction and a dissipated heat. The origin for the linear contraction is an osmotic pressure which is spontaneously generated during glass aging, and the origin for the dissipated heat is the irreversibility on thermal vibrations of molecules. The result obtained is a verification of the Glansdorff–Prigogine evolutional criterion, which is first applied to a structural relaxation phenomenon in this paper. We conclude that a glass reaches a steady nonequilibrium state, which has the dissipative structure both in a steady configurational state and in steady irreversible processes.
•Glass aging was measured using a diode laser resonated in a glass cavity.•Glass aging showed a linear contraction in addition to an exponential contraction.•A linear contraction is a spontaneous structural relaxation with a long relaxation time.•A glass reaches the dissipative structure presented by Prigogine.•The results are a verification of the Glansdorff–Prigogine evolutional criterion. |
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ISSN: | 0378-4371 1873-2119 |
DOI: | 10.1016/j.physa.2015.12.108 |