00880nam0-22002771i-450 99000479791040332120210526124859.000047979119990604d1961----km-y0itay50------baengy-------001yy<<A >>History of litterary criticism in the italian Renaissanceby Bernard WeinbergChicagoThe University of Chicago press19612 v.24 cmWeinberg,Bernard<1909-1973>191871ITUNINARICAUNIMARCBK990004797910403321P.3 A1(1110;1)Bibl.35865FLFBCP.3 A1(1110;2)Bibl.35865FLFBCBIB. BAT.6378(1)BATBIB. BAT.6378(2)BATFLFBCBATHistory of litterary criticism in the italian Renaissance560800UNINA03838nam 22006855 450 991089018970332120250807132509.03-031-59979-910.1007/978-3-031-59979-8(CKB)36251667100041(MiAaPQ)EBC31727449(Au-PeEL)EBL31727449(DE-He213)978-3-031-59979-8(EXLCZ)993625166710004120241002d2024 u| 0engur|||||||||||txtrdacontentcrdamediacrrdacarrierUnderstanding the Physics of Particle Accelerators A Guide to Beam Dynamics Simulations Using ZGOUBI /by François Méot1st ed. 2024.Cham :Springer International Publishing :Imprint: Springer,2024.1 online resource (651 pages)Particle Acceleration and Detection,2365-08773-031-59978-0 Introduction -- Electrostatic Accelerator -- Linear Accelerator -- Classical Cyclotron -- Relativist Cyclotron -- Microtron -- Betatron -- Synchrocyclotron -- Weak Focusing Synchrotron -- Strong Focusing Synchrotron -- FFAG, Scaling -- Optical Elements -- Ancillary Tools -- Solutions -- Glossary.This open access book introduces readers to the physics of particle accelerators, by means of beam dynamics simulations and exercises using the computer code ZGOUBI. The respective chapters are organized chronologically and trace the historical development of accelerators from electrostatic columns to storage rings, to the numerous variations on resonant acceleration and focusing techniques, while also addressing side aspects such as synchrotron radiation and spin dynamics. The book offers computer simulations in which readers can manipulate, guide, and accelerate charged particles and particle beams in most types of particle accelerator. By performing these simulation exercises, they will acquire a deeper understanding of charged particle beam optics, accelerator physics and technology, as well as the why and how of when to use one technology or the other. These exercises guide readers through a virtual world of accelerator and beam simulations, and involve e.g. manipulating beams for cancer therapy, producing synchrotron radiation for condensed matter research, accelerating polarized ion beams for nuclear physics research, etc. In addition to acquiring an enhanced grasp of physics, readers will discover the basic theoretical and practical aspects of particle accelerators’ main components: guiding and focusing magnets, radio-wave accelerating cavities, wigglers, etc. .Particle Acceleration and Detection,2365-0877Particle acceleratorsMathematical physicsRadiologyMeasurementMeasuring instrumentsBiophysicsAccelerator PhysicsTheoretical, Mathematical and Computational PhysicsRadiologyMeasurement Science and InstrumentationBiophysicsParticle accelerators.Mathematical physics.Radiology.Measurement.Measuring instruments.Biophysics.Accelerator Physics.Theoretical, Mathematical and Computational Physics.Radiology.Measurement Science and Instrumentation.Biophysics.539.73Méot François1830677MiAaPQMiAaPQMiAaPQBOOK9910890189703321Understanding the Physics of Particle Accelerators4430796UNINA