半导体超晶格和量子阱材料是用现代薄膜生长技术制成的一种新型的人造材料。
Superlattice and quantum well materials of semiconductor are new-style synthetic materials made in modern film growth techniques.
本文讨论了超晶格半导体材料(多层量子阱结构)在光开关和光计算中应用的优越性。
This paper discusses the advantages of superlattice semiconductor materials (Multiple Quantum Well Structure) in optical switching and optical computing.
本文研究了半导体超晶格热电材料的声子谱、群速度和热导率等热输运问题,重点通过对声学声子群速度特性的研究来理解超晶格材料的导热性质。
In this paper, the heat transport characteristics such as the phonon spectrum, the group velocity and the thermal conductivity of the semiconductor superlattice thermoelectric materials were studied.
本文研究了半导体超晶格热电材料的声子谱、群速度和热导率等热输运问题,重点通过对声学声子群速度特性的研究来理解超晶格材料的导热性质。
In this paper, the heat transport characteristics such as the phonon spectrum, the group velocity and the thermal conductivity of the semiconductor superlattice thermoelectric materials were studied.
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