The technology boom in microelectronics and telecommunication industry has presented a unique opportunity for nanomaterials. Nanomaterials enable the creation of unique devices, components and systems through the cont...The technology boom in microelectronics and telecommunication industry has presented a unique opportunity for nanomaterials. Nanomaterials enable the creation of unique devices, components and systems through the control of matter on a near molecular level. These new devices, components and systems will exhibit novel physical, chemical, mechanical, electrical, optical and biological properties. The synthesis processes of nanomaterials are reviewed and the applications of nanomatorials in microelectronics are discussed in this paper.展开更多
Device physics research for submicron and deep submicron space microelectronics devices and integrated circuits will be described in three topics.1.Thin film submicron and deep submicron SOS / CMOS devices and integra...Device physics research for submicron and deep submicron space microelectronics devices and integrated circuits will be described in three topics.1.Thin film submicron and deep submicron SOS / CMOS devices and integrated circuits.2.Deep submicron LDD CMOS devices and integrated circuits.3.C band and Ku band microwave GaAs MESFET and III-V compound hetrojunction HEM T and HBT devices and integrated circuits.展开更多
Research and development work of space microelectronics of China startedin 1965 as part of the space development program of China. Jointcoordination administered by the Ministry of Aero-Space results in success of Ch...Research and development work of space microelectronics of China startedin 1965 as part of the space development program of China. Jointcoordination administered by the Ministry of Aero-Space results in success of China’s first generation of space program including the launching ofcommunication satellite. It is to be emphasized that during this phase of Rand D for space microelectronics (1965~1978), we were completely iso-展开更多
Aerospace microelectronic technology has become the core competence of aerospace technology. For evaluating the aerospace microelectronic industry, it is necessary to change descriptive language of goal to quantitativ...Aerospace microelectronic technology has become the core competence of aerospace technology. For evaluating the aerospace microelectronic industry, it is necessary to change descriptive language of goal to quantitative index that can be measured. Knowing quantified goals or tree structure and array of general goal system, with certain algorithm and processing each corresponding list or array, we can bring out a quantified general goal value. The multi-objective (multi-attribute) evaluation method and the relevant weight sum algorithm have been adopted to quantitatively evaluate and forecast the developing state of the industry. A practical example illustrates that the applied decision technique and the algorithm are feasible and effective.展开更多
文摘The technology boom in microelectronics and telecommunication industry has presented a unique opportunity for nanomaterials. Nanomaterials enable the creation of unique devices, components and systems through the control of matter on a near molecular level. These new devices, components and systems will exhibit novel physical, chemical, mechanical, electrical, optical and biological properties. The synthesis processes of nanomaterials are reviewed and the applications of nanomatorials in microelectronics are discussed in this paper.
文摘Device physics research for submicron and deep submicron space microelectronics devices and integrated circuits will be described in three topics.1.Thin film submicron and deep submicron SOS / CMOS devices and integrated circuits.2.Deep submicron LDD CMOS devices and integrated circuits.3.C band and Ku band microwave GaAs MESFET and III-V compound hetrojunction HEM T and HBT devices and integrated circuits.
文摘Research and development work of space microelectronics of China startedin 1965 as part of the space development program of China. Jointcoordination administered by the Ministry of Aero-Space results in success of China’s first generation of space program including the launching ofcommunication satellite. It is to be emphasized that during this phase of Rand D for space microelectronics (1965~1978), we were completely iso-
文摘Aerospace microelectronic technology has become the core competence of aerospace technology. For evaluating the aerospace microelectronic industry, it is necessary to change descriptive language of goal to quantitative index that can be measured. Knowing quantified goals or tree structure and array of general goal system, with certain algorithm and processing each corresponding list or array, we can bring out a quantified general goal value. The multi-objective (multi-attribute) evaluation method and the relevant weight sum algorithm have been adopted to quantitatively evaluate and forecast the developing state of the industry. A practical example illustrates that the applied decision technique and the algorithm are feasible and effective.
