<!-- <description> -->This book explores a first introduction to particle beams and accelerators. The text uses the suite of tools made available in the MATLAB package. Since many colleges have a site wide license, these tools are often freely available to students. A brief introduction to those tools is made initially. Analogues in classical optics are introduced where useful. The text is compact and focuses on graphical data display and dynamical “movies” as an aid to understanding specific systems. Hands on dialogue using command line inputs, “apps”, and “live” tools are stressed. The extensive algebraic steps are subsumed into the associated scripts, where the symbolic math utilities spare the reader from the math manipulations. Both beams and periodic structures are covered. Dispersion, insertions, acceleration and light sources are discussed.
<!-- </description> -->Contents:Introduction to MATLABClassical OpticsUniform Electric and Magnetic FieldsDipoleQuadrupoleQuadrupole Doublet, TripletBeamsFODOPeriodic StructuresDispersionInsertionsLow BetaMagnet Imperfections and Beam InteractionsAccelerationMedical Applications and Light SourcesSummaryAppendices:Inputs for “Plot”Live and App Designer ScriptsInitial MATLAB ScriptsUseful Trig IdentitiesCollider Accelerator ParametersRadiation Length of the Elements<!-- </contents> -->
<!-- <readership> -->Readership: Graduate students and researchers in high energy physics and accelerator physics.<!-- </readership> -->
Accelerators;Particle Beams;Optics;Periodic Structures;MATLAB00