Chapter one is about basic theory of superlattice and quantum well materials . We give the conception of superlattice and quantum wells and basic quality .

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New progress in X ray analysis of the thin film multilayers and one dimensional superlattice materials

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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 .

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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 .

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Recent Progress in Superlattice Materials and 8 ~ 12 u03bc m Quantum Well Infrared Detectors

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Superlattice is new generation of microelectronics materials and has vast foreground in applications .

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Development of Semiconductor Superlattice Materials and Opto-electronic Devices

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Semiconductor opto-electronic devices have been forged up into a wholly new stage by the research and development of semiconductor superlattice materials .

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This paper discusses the advantages of superlattice semiconductor materials ( Multiple Quantum Well Structure ) in optical switching and optical computing .

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Superlattice and quantum well materials of semiconductor are new-style synthetic materials made in modern film growth techniques .

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Semiconductor superlattice materials and opto-electronic devices derived herefrom give rise to a new growth point of semiconductor science and technology .

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Progress of superlattice thermoelectric materials

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Appearance of superlattice and quantum well materials takes on important meaning not only in theory but also in practical application .

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In 1970 Koehler pointed out that the superlattice made up by two large different modulus materials may has high hardness based on dislocation theory .

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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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