重离子物理

GOOSY系统将是用于重离子物理实验的主要数据获取与处理系统，本文概要介绍了该系统的主要特点、软硬件结构与功能。

GOOSY system is used for data acquisition and processing of heavy-ion physics experiments . This paper introduces its main performance software and hardware are discussed as well .

为了研制一个强中子发生器，北京大学重离子物理研究所设计了一台高负载因子、高流强的RFQ加速器。

To develop a high current neutron generator , preliminary studies on a high current , high duty factor 4-rod RFQ accelerator has been carried out in the Institute of Heavy Ion Physics , Peking University .

晶格气体模型在重离子物理中的应用

Application of Lattice Gas Model in Heavy Ion Physics

重离子物理研究所团簇研究进展

Study of Cluster in Institue of Heavy Ion Physics

环形（位置灵敏）充气探测器及其在重离子物理实验中的应用

Ring ( Position Sensitive ) Gas Filled Detector and Its Application in Heavy Ion Physics Experiment

综述超高能诱发核反应的国际合作实验进展及相关的重离子物理研究现状。

An overview of experimental status of the international collaboration on ultra high energy induced nuclear reactions and the relative heavy ion physics is given .

本文简要评述了中能重离子物理中高温核研究的发展和现状。

In this paper , the important development and current situation of hot nuclei researches inthe domain of intermediate energy heavy ion physics have been briefly reviewed .

确定非对称核物质状态方程尤其是密度相关的对称能是核物理与重离子物理中的一个重要目的。

The determination of the Equation of state of asymmetric nuclear matter especially the density dependence of nuclear symmetry energy , is one of the most important goals of nuclear physics and heavy ion physics .

随着核物理的分支学科-重离子物理的蓬勃发展，国内外对于重离子加速器的建设进行了大量的投入。

With the development of Heavy Ion Physics , the branch subject of nuclear physics , the governments over the world put a large number of funds and resources into the construction of heavy ion accelerators .

我国高能重离子碰撞物理研究

On the studies of high energy heavy ion collisions in China

最后对当前中能重离子核物理的发展前景作了介绍。

The perspective of heavy ion collisions at intermediate energy was introduced briefly .

肿瘤治疗的重离子束物理性质研究

Physics Quality of Heavy Ions Beam with Tumor Therapy

强子物质性质的研究在低能核物理、高能重离子碰撞物理以及天体物理的研究中都有着重要意义。

The study of the hadronic matter has an important role in low energy nuclear physics , high energy heavy ion collision experiments and astrophysics .

极端条件下强子性质的研究是理论核物理的重要关注对象之一，在高能重离子碰撞物理与天体物理的研究中都有着重要意义。

The study of the hadronic property under extreme environment is paid much attention in theoretical nuclear physics . It plays an important role in high energy heavy ion collision experiments and astrophysics .

由于重离子Bragg峰的物理特性，使重离子束治疗肿瘤成为当今最先进的技术。

As physical characteristic of heavy ions Bragg peak , therapy tumor with heavy ions is becoming advanced technology .