半导体物理学是凝聚态物理学的一个重要分支,也是现代微电子器件工艺学的理论核心。
Semiconductor physics is recognized as one of the major areas of condensed matter physics and the core of modern micro-electronics device technology.
上面的图片是普林斯顿物理学家发明的新型“光子固态”的特写镜头,它们是光半导体,而非电子半导体。
The image above is a close-up of a new "photonic solid" invented by Princeton physicists; think of it as a semiconductor of light, rather than electricity.
在20世纪60年代初,物理学家们使用半导体工业中使用的工具来从头开始创建新材料,在原子尺度上一层层地建立它们。
Beginning in the 1960s, physicists were using tools adapted from the semiconductor industry to create new materials from scratch, building them up layer-by-layer at the atomic scale.
致力于寻找能够解释日后在量子物理学中被称为半导体的材料,其所具有的特殊效应的科学解释。
He searched for an explanation of the effect from what was then known of the quantum physics of semiconductors.
本课程著重于光子与半导体材料之交互影响的物理学上。
This class focuses on the physics of the interaction of photons with semiconductor materials.
晶体管:用于放大、控制和生产电信号的半导体器件,是贝尔电话实验室的三位美国物理学家巴丁、布喇顿和肖克莱于1947年所发明;
Transistor: Solid-state semiconductor device for amplifying, controlling, and generating electrical signals. Invented at Bell Labs (1947) by John Bardeen, Walter H. Brattain, and William B.
晶体管:用于放大、控制和生产电信号的半导体器件,是贝尔电话实验室的三位美国物理学家巴丁、布喇顿和肖克莱于1947年所发明;
Transistor: Solid-state semiconductor device for amplifying, controlling, and generating electrical signals. Invented at Bell Labs (1947) by John Bardeen, Walter H. Brattain, and William B.
应用推荐