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1. Accelerator physics: Accelerator physics is a branch of applied physics, concerned with designing, building and operating particle accelerators. As such, it can be described as the study of motion, manipulation and observation of relativistic charged particle beams and their interaction with accelerator ... (Physics) [100%] 2023-10-20 [Accelerator physics] [Experimental particle physics]...
2. Accelerator physics: Accelerator physics is a branch of applied physics, concerned with designing, building and operating particle accelerators. As such, it can be described as the study of motion, manipulation and observation of relativistic charged particle beams and their interaction with accelerator ... (Physics related to the study, design, building and operation of particle accelerators) [100%] 2023-11-23 [Accelerator physics] [Experimental particle physics]...
3. Accelerator physics codes: A charged particle accelerator is a complex machine that takes elementary charged particles and accelerates them to very high energies. Accelerator physics is a field of physics encompassing all the aspects required to design and operate the equipment and to ... [81%] 2022-11-19 [Accelerator physics] [Scientific simulation software]...
4. Accelerator physics codes: A charged particle accelerator is a complex machine that takes elementary charged particles and accelerates them to very high energies. Accelerator physics is a field of physics encompassing all the aspects required to design and operate the equipment and to ... (Physics) [81%] 2023-10-27 [Accelerator physics] [Scientific modeling]...
5. Impedance (accelerator physics): Impedance in Accelerator Physics is a quantity that characterizes the self interaction of a charged particle beam, mediated by the beam environment, such as the vacuum chamber, RF cavities, and other elements encountered along the accelerator or storage ring. The ... (Physics) [81%] 2024-08-29 [Accelerator physics]
6. Collective effects (accelerator physics): Charged particle beams in a particle accelerator or a storage ring undergo a variety of different processes. Typically the beam dynamics is broken down into single particle dynamics and collective effects. (Physics) [70%] 2023-11-14 [Accelerator physics]
7. Beta function (accelerator physics): The beta function in accelerator physics is a function related to the transverse size of the particle beam at the location s along the nominal beam trajectory. It is related to the transverse beam size as follows: \displaystyle{ \sigma(s ... (Physics) [70%] 2023-11-05 [Accelerator physics]
8. Quantum excitation (accelerator physics): Quantum excitation is the effect in circular accelerators or storage rings whereby the discreteness of photon emission causes the charged particles (typically electrons) to undergo a random walk or diffusion process. An electron moving through a magnetic field emits radiation. (Physics) [70%] 2023-10-20 [Accelerator physics]
9. Dynamic aperture (accelerator physics): The dynamic aperture is the stability region of phase space in a circular accelerator. In the case of protons or heavy ion accelerators, (or synchrotrons, or storage rings), there is minimal radiation, and hence the dynamics is symplectic. (Physics) [70%] 2023-09-23 [Accelerator physics] [Dynamical systems]...
10. Collective effects (accelerator physics): Charged particle beams in a particle accelerator or a storage ring undergo a variety of different processes. Typically the beam dynamics is broken down into single particle dynamics and collective effects. (Accelerator physics) [70%] 2024-04-12 [Accelerator physics]