Dilatometric and refractive parameters of rubidium sulfate crystals at low temperatures

IF 0.6 4区物理与天体物理 Q4 PHYSICS, APPLIED

Low Temperature Physics Pub Date : 2024-07-19 DOI:10.1063/10.0026324

I. A. Pryshko, I. S. Novosad, Z. O. Kohut, V. M. Salapak, O. M. Horina

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Abstract

The temperature changes of the relative elongation (Δl/l0)i and refractive indices ni(T) of rubidium sulfate crystals in the region of low temperatures are investigated in the work. The linear dimensions and volume of the crystal decrease with a decrease in temperature, and the parameters (Δl/l0)i are anisotropic. The values of ni increase with decreasing temperature for all crystal physical directions, and the intersection of the curves nz(T) and nx(Т) at a temperature of Т = 85 K occurs. This indicates the existence of an optical isotropic point in this crystal, which is confirmed by independent temperature measurements of the angle between the optical axes. It is shown that rubidium sulfate crystals are optically biaxial, with the angle between the optical axes equal 2 V = 41.5° at room temperature. With decreasing temperature, it decreases almost linearly, so that at Т = 85 K the crystal changes from optically biaxial to optically uniaxial (2 V = 0°). The temperature changes of the values of electronic polarizability αi were calculated. It was shown that αi increases slightly as temperature decrease, so that in the region where the optical isotropic point exists, the values αх and αz are equal to each other.

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硫酸铷晶体在低温下的稀释和折射参数

该作品研究了硫酸铷晶体在低温区域的相对伸长率 (Δl/l0)i 和折射率 ni(T) 的温度变化。晶体的线性尺寸和体积随着温度的降低而减小，参数 (Δl/l0)i 是各向异性的。在所有晶体物理方向上，ni 的值都随着温度的降低而增加，并且在温度 Т = 85 K 时出现了 nz(T) 和 nx(Т) 曲线的交点。这表明该晶体中存在一个光学各向同性点，光轴之间角度的独立温度测量也证实了这一点。研究表明，硫酸铷晶体具有光学双轴性，在室温下，光轴之间的夹角等于 2 V = 41.5°。随着温度的降低，它几乎呈线性减小，因此在 Т = 85 K 时，晶体从光学双轴变为光学单轴（2 V = 0°）。计算了电子极化率 αi 值的温度变化。结果表明，随着温度的降低，αi 会略微增加，因此在存在光学各向同性点的区域，αх 和 αz 的值相等。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Low Temperature Physics 物理-物理：应用

CiteScore

1.20

自引率

25.00%

发文量

138

审稿时长

3 months

期刊介绍： Guided by an international editorial board, Low Temperature Physics (LTP) communicates the results of important experimental and theoretical studies conducted at low temperatures. LTP offers key work in such areas as superconductivity, magnetism, lattice dynamics, quantum liquids and crystals, cryocrystals, low-dimensional and disordered systems, electronic properties of normal metals and alloys, and critical phenomena. The journal publishes original articles on new experimental and theoretical results as well as review articles, brief communications, memoirs, and biographies. Low Temperature Physics, a translation of the copyrighted Journal FIZIKA NIZKIKH TEMPERATUR, is a monthly journal containing English reports of current research in the field of the low temperature physics. The translation began with the 1975 issues. One volume is published annually beginning with the January issues.