Dr Blakeway holds a Doctorate in Electron Physics.
威博士持有电子物理学博士学位。
He was dramatically proved right: the anti-electron was soon discovered experimentally, and shortly after the concept of "anti-matter" became a cornerstone of physics.
他的观点引人注目地得到了证明:反电子不久在实验中被发现,“反物质”概念很快成为物理学的基石。
Bohr found that an electron has the qualities of both a particle and a wave, a concept known as wave-particle duality, which has become a cornerstone of quantum physics.
玻尔发现电子同时具有粒子和波的性质,这便是波粒二象性。波粒二象性构成了量子物理学的基石。
Beijing Electron Positron Collider (BEPC) is the State Key lab of our country in high physics research.
北京正负电子对撞机(BEPC)是用于高能物理研究的国家重点实验室。
Recent experimental results obtained at Beijing Electron-proton Collider sensitivity level the crisply defined natrue of the hadronic decay puzzle in charmonium physics.
北京正负电子对撞机上的最新实验研究结果在高灵敏度水平上展现了粲夸克偶素物理中的强衰变之谜。
The shower electron was determined to be the detected object since the results from accelerator physics and Monte-Carlo calculation show that it carries strong position information.
在进行加速器物理计算和蒙特卡罗计算后,因为簇射电子带有最强的位置信息而被确定为探测对象。
Atomic physics (or atom physics) is physics of the electron hull of atoms.
原子物理学是原子中电子云的物理学。
A model, which is called optical potential model of physics, for the scattering of electron by atomic oxygen, is discussed.
作者采用等效势方法讨论了电子被原子散射的物理模型。
Polaron is the quasi particle of the electron-longitude optical phonon coupling system, which is an important subject in the condensed matter physics.
极化子是电子与光频支纵声子相耦合系统的准粒子,是凝聚态物理学中的一个重要课题。
Beijing Spectrometer (BES) is an experimental facility of high energy physics on Beijing Electron Positron Collider (BEPC).
北京谱仪是北京正负电子对撞机上的高能物理实验装置。
The single electron detachment of negative ions in collision with atoms is known to be one of the most fundamental processes occurring in plasma physics, astrophysics, and ionospheric physics.
负离子与原子碰撞的单电子脱附过程是普遍存在于等离子体物理、天体物理、电离层物理学中的重要过程。
Some laws in solid state physics, derived from bulk effect, can not be effectively applied to electron emission which is mainly a surface phenomenon.
从体效应中总结出来的固体理论,不能有效地解释电子发射的问题,因为电子发射主要地来源于表面。
The mechanism of electron near wall conduction (NWC) is one of the most important physics problems for thruster performance.
电子近壁传导是影响霍尔推力器工作性能的关键物理过程之一;
Pulse power with fast rise time technology was applied in many fields such as nuclear physics, electron beam, accelerator, laser, HPM etc.
高功率快脉冲技术在核物理技术、电子束、加速器、激光、HPM现代科学技术领域都有广泛的应用。
A model of physics for the scattering of slow electron by atoms is discussed.
本文讨论了慢电子被原子散射的物理模型。
The radiated power of impurity ions varying with time and electron temperature for given the profiles of electron temperature and density is calculated, and the corresponding physics is discussed.
在给定电子温度和密度剖面下,给出了杂质离子辐射率随时间和电子温度变化的计算结果,并讨论了相关物理过程。
In this paper, electron beam physics, equilibrium of plasma in Tokamak under electron injection and physical problems involved in the electron injector were analytically studied.
对电场漂移电子注入中的电子束物理、电子注入情况下托卡马克等离子体的平衡、电子注手器中的物理问题等进行了分析研究。
As we have learned, what 11 doctoral students learned major to cover physics of mechanical, chemical, electron, electric machinery, automation, accurate instrument, project, car to make 8 major.
据了解,11位博士生所学专业涵盖了机械、化学、电子、电机、自动化、精密仪器、工程物理、汽车制造八个专业。
Positron or electron-atom collision theory is a main and fundamental area of atomic and molecular physics.
正(负)电子与原子的碰撞理论是原子与分子物理主要的研究领域。
The metal-insulator transition due to electron-electron interactions is one of the most celebrated but least understood problems in condensed matter physics.
除了在凝聚体物理学方面的最少理解的问题,金属绝缘子过渡由于电子电子相互作用是庆祝的大多数之一。
Using the collision of relativistic laser and electron beam to study the nonlinear Compton scattering is the interdisciplinary frontier of particle physics and strong laser physics.
使用相对论性强激光与电子束对撞中产生的辐射研究非线性康普顿散射是粒子物理与强激光物理两个领域的交叉前沿课题。
The High Power Microwave (HPM) technology as a combination of pulse power technology, plasma physics and vacuum electron device is a rising science in the 1970s.
高功率微波(HPM)技术是上世纪70年代以来产生的一门新兴学科,是脉冲功率技术与等离子体物理学及电真空技术相结合的产物。
The High Power Microwave (HPM) technology as a combination of pulse power technology, plasma physics and vacuum electron device is a rising science in the 1970s.
高功率微波(HPM)技术是上世纪70年代以来产生的一门新兴学科,是脉冲功率技术与等离子体物理学及电真空技术相结合的产物。
应用推荐