能存储、转移、控制分立电荷包,并能高速工作的器件是十分有用的。当提高可见光和近红外区的灵敏度时,这种器件将具有难以想象的应用潜力。 1969年,贝尔研究所的两位从事磁泡存储器研究的科学家,试图解决当时新技术方面的某些问题。他们认为,将磁泡原理应用于半导体器件,不但可以发挥磁泡本身的固有特点,而且还能兼得硅集成电路成本低的优点。在一次小组讨论会上,经过一小时的讨论,他们(W·S·Boyle和G·E·Smith)提出了电荷耦合器件(CCD)的概念,并对此进行了数学 Devices that store, transfer, and control discrete charge packets and work at high speeds are useful. When increasing the sensitivity of the visible and near-infrared regions, this device will have unimaginable potential for use. In 1969, two scientists at the Bell Institute engaged in bubble memory research, trying to solve some of the problems with the new technologies at the time. They believe that the bubble principle applied to semiconductor devices, not only can play the inherent characteristics of the bubble itself, but also have the advantages of low cost silicon integrated circuits. After a one-hour discussion at a panel discussion, they (W.S. Boyle and GM Smith) proposed the concept of charge-coupled device (CCD) and conducted mathematical