Thermodynamic Analysis of Vapor Phase Growth of Fe:ZnSe Single Crystals

IF 0.7 4区材料科学 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY

Inorganic Materials Pub Date : 2025-06-30 DOI:10.1134/S0020168525700311

V. I. Kozlovsky, Yu. V. Korostelin

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引用次数: 0

Abstract

Fe:ZnSe single crystals are promising materials for mid-infrared (4–5 μm) lasers. Here we present thermodynamic analysis of the vapor phase growth of Fe:ZnSe single crystals by a modified free growth method. Doping with Fe atoms was performed during the growth process. The single crystals were grown from sublimates of the binary compounds ZnSe and FeSe placed in separate source compartments. Vapors of the starting materials were directed to a single-crystal seed in the growth zone through calibrated orifices. Calculations were performed for physical transport in a helium atmosphere. We took into account three main steps of the growth process: vaporization of the starting materials in the source compartments, transport of the vapor to the growth zone, and crystal growth on the seed. The rate of the growth process was assumed to be limited by mass transport from the source to the growth zone, controlled by the geometric dimensions and mutual arrangement of the elements of the growth ampule. The experimental data on the dopant concentration are compared to the calculation results. The proposed growth technique is shown to ensure preparation of single crystals up to 8 cm³ in volume, with a Fe concentration of up to 5 × 10¹⁸ cm^–3.

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Fe:ZnSe单晶气相生长的热力学分析

Fe:ZnSe单晶是中红外（4-5 μm）激光器的理想材料。本文采用一种改进的自由生长法对Fe:ZnSe单晶的气相生长进行了热力学分析。在生长过程中掺杂了铁原子。单晶是由二元化合物ZnSe和FeSe的升华物生长在不同的源室中。起始材料的蒸汽通过校准的孔被导向生长区的单晶种子。对氦大气中的物理输运进行了计算。我们考虑了生长过程的三个主要步骤：源室中起始材料的汽化，蒸汽输送到生长区域，以及种子上的晶体生长。生长过程的速率被假设为受到从源到生长区域的质量传递的限制，受生长试样的几何尺寸和元素的相互排列的控制。并将实验数据与计算结果进行了比较。所提出的生长技术被证明可以确保制备体积高达8 cm3的单晶，铁浓度高达5 × 1018 cm-3。

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

Inorganic Materials 工程技术-材料科学：综合

CiteScore

1.40

自引率

25.00%

发文量

审稿时长

3-6 weeks

期刊介绍： Inorganic Materials is a journal that publishes reviews and original articles devoted to chemistry, physics, and applications of various inorganic materials including high-purity substances and materials. The journal discusses phase equilibria, including P–T–X diagrams, and the fundamentals of inorganic materials science, which determines preparatory conditions for compounds of various compositions with specified deviations from stoichiometry. Inorganic Materials is a multidisciplinary journal covering all classes of inorganic materials. The journal welcomes manuscripts from all countries in the English or Russian language.