快速热处理前后硅晶片平面的结构

IF 0.2 Q4 INSTRUMENTS & INSTRUMENTATION Devices and Methods of Measurements Pub Date : 2024-07-23 DOI:10.21122/2220-9506-2024-15-2-142-150
U. A. Pilipenko, A. A. Sergeichik, D. V. Shestovski, V. A. Solodukha
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引用次数: 0

摘要

目前,在制造最新微电子产品的过程中,去除晶片表面的机械干扰层非常重要。利用持续时间为秒的光脉冲进行快速热处理是去除离子注入后出现的晶格紊乱的一种适用方法。然而,晶圆平面上机械扰动层的晶体结构仍不清楚。利用透射电子学方法、衍射反射曲线分析和电子欧杰光谱学进行的研究,都未能提供有关厚度至少为 30 纳米的表层晶格状态的可靠数据。因此,无法提出固相再结晶模型并对其进行数学描述。这项工作的目标如下- 利用生硅晶片表面,通过后向反射电子衍射方法,确定快速热处理前后 30 纳米厚度表层的硅晶格状态; - 分析快速热处理前后生硅表面的污染元素组成; - 建立快速热处理后表面扰动层的固相再结晶模型及其数学描述。提供了利用厚度为 30 纳米的硅晶片表面层进行背向反射电子衍射的图像,以及硅晶片平面清除杂质的结果。提出了降低受机械干扰的硅层再结晶过程的活化能的方法,并提供了数学描述。确定了快速热处理参数,以减轻对硅晶片的热影响,使其平面上的机械干扰层再结晶。
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Structure of Silicon Wafers Planar Surface before and after Rapid Thermal Treatment
Presently it is important to remove mechanically disturbed layer on wafer surface during creation of up-to-date microelectronic products. Rapid thermal treatment with optical pulses of second duration is one of the applicable methods for removing disturbances in crystal lattice emerging after ion implantation. However the crystal structure of mechanically disturbed layer on wafer planar side is still unclear. Researches by transmission electronic method, analysis of diffraction reflection curve and electronic Auger spectroscopy has failed to provide reliable data about the state of crystal lattice in surface layer of at least 30 nm thickness. Hence it was impossible to suggest a model of solid phase recrystallization and to present its mathematical description. The goals of the work were as follows: – identify of silicon crystal lattice state in surface layer of 30 nm thickness before and after rapid thermal treatment by backward reflected electrons diffraction method using raw Si wafers surface; – analysis of contamination element composition on the surface of raw silicon before and after rapid thermal treatment; – model development for solid phase recrystallization of surface disturbed layer after rapid thermal treatment and its mathematical description. Images of back ward reflected electrons diffraction using surface layer of raw silicon wafers' of 30 nm thickness and also the results of the planar surface of raw silicon wafers' cleaning from impurities are provided. Processes reducing the activating energy of mechanically disturbed silicon layer recrystallization process were suggested and its mathematical description was provided. Parameters of rapid thermal treatment mitigating the thermal impact on silicon wafer for recrystallization of mechanically disturbed layer on its planar surface ware defined.
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来源期刊
Devices and Methods of Measurements
Devices and Methods of Measurements INSTRUMENTS & INSTRUMENTATION-
自引率
25.00%
发文量
18
审稿时长
8 weeks
期刊最新文献
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