为使半导体产品达到所要求的光学、电子和机械性能,必须实时地在沉积过程中直接测量薄膜应力。
In order to meet the requirements of optical, electronic and mechanical performance of semiconductor products, it is necessary to measure thin film stress during the deposition.
产品广泛应用于电子元件、计算机、通讯光学、半导体微生物等高科技产业。
Products are widely used in electronic components, computer, communication optical, semiconductor micro-organisms and other high-tech industries.
有机电子材料作为一种新型电子材料,不但具备半导体的光学和电学特性,而且保留了有机物优良的加工处理和机械性能。
They are a novel class of electronic materials which combine the optical and electronic properties of semiconductors with the processing advantages and mechanical properties of polymers.
半导体材料的非线性光学特性在光电子器件领域,如全光开关、光学限幅器、光波耦合器等方面有很好的应用价值。
The nonlinear optical properties of semiconductors were intensively used in the optoelectronic devices, such as all-optical switches, optical limiters and waveguide formation etc.
有不少极性半导体,电子与体纵光学声子的耦合弱,但与表面光学声子的耦合强。
There isa weak bulk coupling but a strong surface coupling between electrons and phonons for many ionic crystals.
这种技术也许为模拟半导体电子设备提供了一个新的方法,例如:光学开关。
The technique could provide a new method for constructing analogues of electronic semiconductor devices, such as optical switches.
用有机半导体、导体材料制造出各种电子器件、光电器件、光学器件的梦想正在逐步变为现实。
The dream of using semiconducting and metallic polymers for fabricating novel photonic devices, electronic devices, and optical devices is becoming reality.
用有机半导体、导体材料制造出各种电子器件、光电器件、光学器件的梦想正在逐步变为现实。
The dream of using semiconducting and metallic polymers for fabricating novel photonic devices, electronic devices, and optical devices is becoming reality.
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