| 1. | We ' ve devoted ourselves to the computer - aided design of accelerator cavity for some work
论文在如何利用计算机技术来辅助设计加速器腔这方面做了一些工作。 |
| 2. | Computation of electromagnetic field in cavity is one of the key techniques to design an accelerator cavity
腔体电磁场的计算是设计一个加速腔的关键技术之一。 |
| 3. | Design of accelerator cavity is very important for the performance enhancement of particle accelerator
加速器高频腔的设计对提高粒子加速器的性能有着十分重要的意义。 |
| 4. | The electromagnetism field of the accelerator cavity is analyzed , and the movement of electron in the cavity also analyzed . the vibration rule of transverse emittance is acquired when the electron beams move in the accelerator cavity , and the result complies with the numeric simulation
分析了rf - gun加速腔中的电磁场结构和电子运动规律,得到电子束在加速腔中运动时束流横向发射度是振荡变化的,与数值模拟结果吻合。 |
| 5. | During the design of accelerator cavity , we must face complicated objects and time - varied data . it is necessary for us to consider an object - oriented and temporal data model . therefore , we give a conceptual data model , that is entity - relationship data model ( shorten as ter model )
目录中国原子能科学研究院博士学位论文h在加速器腔体的设计中,所面临的对象是复杂的,数据是时变的,所以我们有必要提出一个面向对象的、时态的数据模型。 |
| 6. | In order to manage and handle the large amount of data which are needed and produced during the design of accelerator cavity , by applying the database technology , we design and establish a special database management system prototype for accelerator rf cavity design , called fisfdbase . we also basically implement a framework of the system prototype
为了利用数据库技术来管理和处理加速器腔设计时所需要的和产生的大量数据,论文设计和建立了一个加速器高频腔设计专用数据库管理系统原型fishbase ,并初步实现了该系统原型的框架。 |
