08831nam 22005773 450 991097827160332120250905110028.0978100346328310034632829781040314319104031431797810403143951040314392(MiAaPQ)EBC31727581(Au-PeEL)EBL31727581(CKB)37345711000041(OCoLC)1492922562(NjHacI)9937345711000041(ODN)ODN0011178526(EXLCZ)993734571100004120250127d2019 uy 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierHands-On Accelerator Physics Using MATLAB®2nd ed.Milton :Taylor & Francis Group,2019.©2025.1 online resource (416 pages)9781032726960 1032726962 Includes bibliographical references and index.Cover -- Half Title -- Title Page -- Copyright Page -- Table of Contents -- Preface -- Acknowledgments -- CHAPTER 1: Introduction and History -- CHAPTER 2: Reference System -- 2.1 THE REFERENCE TRAJECTORY -- 2.2 COORDINATE TRANSFORMATIONS -- 2.3 PARTICLES AND THEIR DESCRIPTION -- 2.4 PARTICLE ENSEMBLES, BUNCHES -- CHAPTER 3: Transverse Beam Optics -- 3.1 MAGNETS AND MATRICES -- 3.1.1 Thin quadrupoles -- 3.1.2 Thick quadrupoles -- 3.1.3 Sector dipole -- 3.1.4 Combined function dipole -- 3.1.5 Rectangular dipole -- 3.1.6 Coordinate rotation -- 3.1.7 Solenoid -- 3.1.8 Non-linear elements -- 3.2 PROPAGATING PARTICLES AND BEAMS -- 3.3 TWO-DIMENSIONAL -- 3.3.1 Beam optics in MATLAB -- 3.3.2 Poincarè section and tune -- 3.3.3 FODO cell and beta functions -- 3.3.4 A complementary look at beta functions -- 3.3.5 Beam size and emittance -- 3.4 CHROMATICITY AND DISPERSION -- 3.4.1 Chromaticity -- 3.4.2 Dispersion -- 3.4.3 Emittance generation -- 3.4.4 Momentum compaction factor -- 3.5 FOUR-DIMENSIONAL AND COUPLING -- 3.6 MATCHING -- 3.6.1 Matching the phase advance -- 3.6.2 Match beta functions to a waist -- 3.6.3 Point-to-point focusing -- 3.7 BEAM-OPTICAL SYSTEMS -- 3.7.1 Telescopes -- 3.7.2 Triplets -- 3.7.3 Doublets -- 3.7.4 Achromats -- 3.7.5 Multi-bend achromats -- 3.7.6 TME cell -- 3.7.7 Dispersion suppressor -- 3.7.8 Interaction region -- 3.7.9 Bunch compressors -- CHAPTER 4: Magnets -- 4.1 MAXWELL'S EQUATIONS AND BOUNDARY CONDITIONS -- 4.2 2D-GEOMETRIES AND MULTIPOLES -- 4.3 IRON-DOMINATED MAGNETS -- 4.3.1 Simple analytical methods -- 4.3.2 Using the MATLAB PDE toolbox -- 4.3.3 Quadrupoles -- 4.3.4 Technological aspects -- 4.4 SUPER-CONDUCTING MAGNETS -- 4.4.1 Simple analytical methods -- 4.4.2 PDE toolbox -- 4.5 PERMANENT MAGNETS -- 4.5.1 Multipoles -- 4.5.2 Segmented multipoles -- 4.5.3 Undulators and wigglers -- 4.6 MAGNET MEASUREMENTS. 4.6.1 Hall probe -- 4.6.2 Rotating coil -- 4.6.3 Undulator measurements -- CHAPTER 5: Longitudinal Dynamics and Acceleration -- 5.1 PILL-BOX CAVITY -- 5.2 TRANSIT-TIME FACTOR -- 5.3 PHASE STABILITY AND SYNCHROTRON OSCILLATIONS -- 5.4 LARGE-AMPLITUDE OSCILLATIONS -- 5.5 RF GYMNASTICS -- 5.6 ACCELERATION -- 5.7 A SIMPLE WORKED EXAMPLE -- CHAPTER 6: Radio-Frequency Systems -- 6.1 POWER GENERATION AND CONTROL -- 6.2 POWER TRANSPORT: WAVEGUIDES AND TRANSMISSION LINES -- 6.3 COUPLERS AND ANTENNAS -- 6.4 POWER TO THE BEAM: RESONATORS AND CAVITIES -- 6.4.1 Losses and quality factor Q0 of a pill-box cavity -- 6.4.2 General cavity geometry with the PDE toolbox -- 6.4.3 Disk-loaded waveguides -- 6.5 TECHNOLOGICAL ASPECTS -- 6.5.1 Normal-conducting -- 6.5.2 Super-conducting -- 6.6 INTERACTION WITH THE BEAM -- 6.6.1 Beam loading -- 6.6.2 Steady-state operation -- 6.6.3 Pulsed operation and transient beam loading -- 6.6.4 Low-level RF system -- CHAPTER 7: Instrumentation and Diagnostics -- 7.1 ZEROTH MOMENT: CURRENT -- 7.2 FIRST MOMENT: BEAM POSITION AND ARRIVAL TIME -- 7.3 SECOND MOMENT: BEAM SIZE -- 7.4 EMITTANCE AND BETA FUNCTIONS -- 7.5 SPECIALTY DIAGNOSTICS -- 7.5.1 Turn-by-turn position monitor data analysis -- 7.5.2 Beam-beam diagnostics -- 7.5.3 Schottky diagnostics -- CHAPTER 8: Imperfections and Their Correction -- 8.1 SOURCES OF IMPERFECTIONS -- 8.1.1 Misalignment and feed down -- 8.1.2 Tilted components -- 8.1.3 Rolled elements and solenoids -- 8.1.4 Chromatic effects -- 8.1.5 Consequences -- 8.2 IMPERFECTIONS IN BEAM LINES -- 8.2.1 Dipole kicks and orbit errors -- 8.2.2 Quadrupolar errors and beam size -- 8.2.3 Skew-quadrupolar perturbations -- 8.2.4 Filamentation -- 8.3 IMPERFECTIONS IN A RING -- 8.3.1 Misalignment and dipole kicks -- 8.3.2 Gradient imperfections -- 8.3.3 Skew-gradient imperfections -- 8.4 CORRECTION IN BEAM LINES. 8.4.1 Trajectory knobs and bumps -- 8.4.2 Orbit correction -- 8.4.3 Beta matching -- 8.4.4 Dispersion and chromaticity -- 8.5 CORRECTION IN RINGS -- 8.5.1 Orbit correction -- 8.5.2 Dispersion-free steering -- 8.5.3 Tune correction -- 8.5.4 Chromaticity correction -- 8.5.5 Coupling correction -- 8.5.6 Orbit response-matrix based methods -- 8.5.7 Feedback systems -- CHAPTER 9: Targets and Luminosity -- 9.1 EVENT RATE AND LUMINOSITY -- 9.2 ENERGY LOSS AND STRAGGLING -- 9.3 TRANSVERSE SCATTERING, EMITTANCE GROWTH, AND LIFE-TIME -- 9.4 COLLIDING BEAMS -- 9.5 BEAM-BEAM LUMINOSITY -- 9.6 INCOHERENT BEAM-BEAM TUNE SHIFT -- 9.7 COHERENT BEAM-BEAM INTERACTIONS -- 9.8 LINEAR COLLIDERS -- CHAPTER 10: Synchrotron Radiation and Free-Electron Lasers -- 10.1 EFFECT ON THE BEAM -- 10.1.1 Longitudinally -- 10.1.2 Vertically -- 10.1.3 Horizontally -- 10.1.4 Quantum lifetime -- 10.2 CHARACTERISTICS OF THE EMITTED RADIATION -- 10.2.1 Dipole magnets -- 10.2.2 Undulators and wigglers -- 10.3 SMALL-GAIN FREE-ELECTRON LASER -- 10.3.1 Amplifier and oscillator -- 10.4 SELF-AMPLIFIED SPONTANEOUS EMISSION -- 10.5 ACCELERATOR CHALLENGES -- CHAPTER 11: Non-linear Dynamics -- 11.1 A ONE-DIMENSIONAL TOY MODEL -- 11.2 TRACKING AND DYNAMIC APERTURE -- 11.3 HAMILTONIANS AND LIE-MAPS -- 11.3.1 Moving Hamiltonians -- 11.3.2 Concatenating Hamiltonians -- 11.4 IMPLEMENTATION IN MATLAB -- 11.5 TWO-DIMENSIONAL MODEL -- 11.6 KNOBS AND RESONANCE-DRIVING TERMS -- 11.7 NON-RESONANT NORMAL FORMS -- CHAPTER 12: Collective Effects -- 12.1 SPACE CHARGE -- 12.2 INTRABEAM SCATTERING AND TOUSCHEK-EFFECT -- 12.3 WAKE FIELDS, IMPEDANCES, AND LOSS FACTORS -- 12.4 COASTING-BEAM INSTABILITY -- 12.5 SINGLE-BUNCH INSTABILITIES -- 12.6 MULTI-BUNCH INSTABILITIES -- CHAPTER 13: Accelerator Subsystems -- 13.1 CONTROL SYSTEM -- 13.1.1 Sensors, actuators, and interfaces -- 13.1.2 System architecture. 13.1.3 Timing system -- 13.1.4 An example: EPICS -- 13.2 PARTICLE SOURCES -- 13.2.1 Electrons -- 13.2.2 Protons and other ions -- 13.2.3 Highly charged ions -- 13.2.4 Negatively charged ions -- 13.2.5 Radio-frequency quadrupole -- 13.3 INJECTION AND EXTRACTION -- 13.4 BEAM COOLING -- 13.5 VACUUM -- 13.5.1 Vacuum basics -- 13.5.2 Pumps and gauges -- 13.5.3 Vacuum calculations -- 13.6 CRYOGENICS -- 13.7 RADIATION PROTECTION AND SAFETY -- 13.7.1 Units -- 13.7.2 Range of radiation in matter -- 13.7.3 Dose measurements -- 13.7.4 Personnel and machine protection -- 13.8 CONVENTIONAL FACILITIES -- 13.8.1 Electricity -- 13.8.2 Water and cooling -- 13.8.3 Buildings and shielding -- CHAPTER 14: Examples of Accelerators -- 14.1 CERN AND THE LARGE HADRON COLLIDER -- 14.2 EUROPEAN SPALLATION SOURCE -- 14.3 SLAC AND THE LINAC COHERENT LIGHT SOURCE -- 14.4 MAX-IV -- 14.5 TANDEM ACCELERATOR IN UPPSALA -- 14.6 ACCELERATORS FOR MEDICAL APPLICATIONS -- 14.7 INDUSTRIAL ACCELERATORS -- APPENDIX A: The Student Labs -- A.1 BEAM PROFILE OF LASER POINTER -- A.2 EMITTANCE MEASUREMENT WITH A LASER POINTER -- A.3 HALBACH MULTIPOLES AND UNDULATORS -- A.4 MAGNET MEASUREMENTS -- A.5 COOKIE-JAR CAVITY ON A NETWORK ANALYZER -- APPENDIX B: Appendices Available Online -- B.1 LINEAR ALGEBRA -- B.2 MATLAB PRIMER -- B.3 OPENSCAD PRIMER -- B.4 LIGHT OPTICS, RAYS, AND GAUSSIAN -- B.5 MATLAB FUNCTIONS -- Bibliography -- Index.Hands-On Accelerator Physics Using MATLAB(R), second edition provides a broad introduction into the physics and the technology of particle accelerators from synchrotron light sources to high-energy colliders.Particle acceleratorsParticles (Nuclear physics)Quantum theoryData processingParticle accelerators.Particles (Nuclear physics)Quantum theoryData processing.539.73Ziemann Volker1051104MiAaPQMiAaPQMiAaPQBOOK9910978271603321Hands-On Accelerator Physics Using MATLAB®4324895UNINA03492nam 2200661Ia 450 991096016820332120200520144314.01-283-58350-X97866138959500-252-09260-0(CKB)2670000000241191(EBL)3414075(SSID)ssj0000711385(PQKBManifestationID)11386547(PQKBTitleCode)TC0000711385(PQKBWorkID)10693504(PQKB)11520431(OCoLC)1058819415(OCoLC)811410286(OCoLC)870419011(OCoLC)923495309(OCoLC)961498114(OCoLC)962589024(OCoLC)on1058819415(MdBmJHUP)muse23902(Au-PeEL)EBL3414075(CaPaEBR)ebr10593747(CaONFJC)MIL389595(OCoLC)923495309(Perlego)2382413(MiAaPQ)EBC3414075(EXLCZ)99267000000024119120030910d2004 ub 0engur|n|---|||||txtccrHigh mountains rising Appalachia in time and place /edited by Richard A. Straw and H. Tyler Blethen1st ed.Urbana University of Illinois Pressc20041 online resource (252 p.)Description based upon print version of record.0-252-02916-X 0-252-07176-X Includes bibliographical references (p. [221]-229) and index.Native Americans / C. Clifford Boyd Jr. -- Pioneer settlement / H. Tyler Blethen -- Slavery and African Americans in the nineteenth century / John C. Inscoe -- The Civil War and Reconstruction / Gordon B. McKinney -- Industrialization / Ronald L. Lewis -- The Great Depression / Paul Salstrom -- Migration / Philip J. Obermiller -- Stereotypes / David C. Hsiung -- Music / Bill C. Malone -- Folklife / Michael Ann Williams -- Language / Michael Montgomery -- Literature / Ted Olson -- Religion / Deborah Vansau McCauley -- Modernization, 1940-2000 / Ronald D. Eller.This collection is the first comprehensive, cohesive volume to unite Appalachian history with its culture. Richard A. Straw and H. Tyler Blethen's High Mountains Rising provides a clear, systematic, and engaging overview of the Appalachian timeline, its people, and the most significant aspects of life in the region. The first half of the fourteen essays deal with historical issues including Native Americans, pioneer settlement, slavery, the Civil War and Reconstruction, industrialization, the Great Depression, migration, and finally, modernization. The remaining essays take a more cultural focus, addressing stereotypes, music, folklife, language, literature, and religion. Bringing together many of the most prestigious scholars in Appalachian studies, this volume has been designed for general and classroom use, and includes suggestions for further reading. Mountain lifeAppalachian RegionAppalachian RegionHistoryAppalachian RegionCivilizationAppalachian RegionSocial conditionsMountain life975/.68Straw Richard Alan1811791Blethen Tyler979705MiAaPQMiAaPQMiAaPQBOOK9910960168203321High mountains rising4363871UNINA