量子化学计算机模型已经建立,这是一种十分强大的技术手段,可让化学工程师制造出某种设备,以达到从原子水平上控制化学反应的目的。
Powerful tools such as quantum-chemical computational models allow chemical engineers to build structures that can control reactions at the atomic level.
英国公司Nanoco的工程师认为量子点技术可以帮助产生太阳能。
Engineers at Nanoco, a British firm, think the dots could help generate solar power.
光学专业是研究光的科学。课程包括波理论和力学,光的量子理论和工程问题等。
Optics majors study the science of light. Topics of study include wave theory and mechanics, the quantum theory of light, and engineering problems.
在工程应用领域,特别是模式识别、量子物理,通信领域等众多非线性信号处理方面得到了最为广泛的应用。
In engineering application area, especially in nonlinear signal processing such as pattern recognition, quantum physics and communication it has a lot of novel applications.
学习另一种解决科学和工程问题的方法:应用量子力学计算,了解其应用范围、可能性和局限。
Learn a different approach to solving scientific and engineering problems: performing quantum mechanical calculations and understanding their scope, possibilities and limitations.
比如,大量的学术人员和工程人员正在思考,如何制造出这样一种晶体管,使得量子隧道成为一种特色,而不是一种缺陷。
A number of groups of academics and engineers, for example, are pondering how to make transistors in which quantum tunnelling is a feature rather than a bug.
共振隧穿二极管因其特有的负微分电阻特性,成为一种很有前途的基于能带工程的异质结构量子器件。
The resonant tunneling diode (RTD) is one of the most promising band-gap engineered heterostructure devices due to its negative differential resistance.
量子点由于其优良的荧光性能,目前已广泛应用于生物工程领域。
Quantum dots, as its excellent fluorescent properties, has been widely used in biological engineering.
共振隧穿二极管因其特有的负微分电阻特性,成为一种很有前途的基于能带工程的异质结构量子器件。
The resonant tunneling diode (RTD) is one of the most promising bandgap engineered heterostructure devices due to its negative differential resistance.
共振隧穿二极管因其特有的负微分电阻特性,成为一种很有前途的基于能带工程的异质结构量子器件。
The resonant tunneling diode (RTD) is one of the most promising bandgap engineered heterostructure devices due to its negative differential resistance.
应用推荐