superlattice materials

英 [ˌs(j)uːpəˈlætɪs məˈtɪərɪəlz] 美 [ˌsupərˈlætəs məˈtɪriəlz]

【化】超晶格材料

化学



双语例句

  1. 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。
  2. In 1970 Koehler pointed out that the superlattice made up by two large different modulus materials may has high hardness based on dislocation theory.
    1970年,Koehler基于分界层对位错运动的阻碍作用的理论,指出由两种切变弹性模量相差悬殊的材料构成的超晶格可能具有高硬度。
  3. Development of Semiconductor Superlattice Materials and Opto-electronic Devices
    半导体超晶格材料和光电子器件的研究和发展
  4. Semiconductor superlattice materials and opto-electronic devices derived herefrom give rise to a new growth point of semiconductor science and technology.
    半导体超晶格材料和以这些材料为基础的光电子器件是半导体科学和技术的一个新生长点。
  5. Chapter one is about basic theory of superlattice and quantum well materials. We give the conception of superlattice and quantum wells, and basic quality.
    第一章介绍了超晶格和量子阱材料的基本理论,超晶格、量子阱的概念,基本性质。
  6. Appearance of superlattice and quantum well materials takes on important meaning not only in theory but also in practical application.
    超晶格和量子阱新材料的出现,无论在理论上,还是在实际应用上都具有重要意义。
  7. This paper discusses the advantages of superlattice semiconductor materials ( Multiple Quantum Well Structure) in optical switching and optical computing.
    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。
  8. Recent Progress in Superlattice Materials and 8~ 12 μ m Quantum Well Infrared Detectors
    8~12μm超晶格量子阱红外探测材料与器件的新进展
  9. Progress of superlattice thermoelectric materials
    超晶格热电材料研究进展
  10. New progress in X ray analysis of the thin film, multilayers and one dimensional superlattice materials
    薄膜、多层膜和一维超点阵材料的X射线分析新进展
  11. In this paper, we presented recent advance on semiconductor superlattice and quantum well materials with MBE technique, and the applications of these materials in high-speed electronic devices and photoelectric devices.
    本文介绍了用MBE技术制作半导体超晶格和量子阱材料的进展,以及在高速电子器件和光学器件方面的应用。
  12. Superlattice is new generation of microelectronics materials and has vast foreground in applications.
    超晶格是一代新型的微电子学材料,具有广泛的应用前景。
  13. Superlattice and quantum well materials of semiconductor are new-style synthetic materials made in modern film growth techniques.
    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。
  14. Semiconductor opto-electronic devices have been forged up into a wholly new stage by the research and development of semiconductor superlattice materials.
    半导体超晶格材料的研究和发展,把半导体光电子器件的研究和发展推进到一个崭新的阶段。
  15. Chapter two introduces the growth techniques of superlattice and quantum well materials, the method of molecular beam epitaxy, growth mechanism and structures, and manufacture of sample.
    第二章介绍了量子阱、超晶格材料的生长方法,介绍了分子束外延法(MBE),阐述了生长基理及其各部分组成,以及样品的制备。