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6.1 Beam Optics and Lattice Design in High Energy Particle Accelerators
Design and Principles of Synchrotrons and Circular CollidersLandolt-Börnstein / Springer Materials | 2013| -
11.3 Accelerators in Medicine
Application of Accelerators and Storage RingsLandolt-Börnstein / Springer Materials | 2013| -
7.5 Accelerating Structures Design and Efficiency
Design and Principles of Linear Accelerators and CollidersLandolt-Börnstein / Springer Materials | 2013| -
8.1 Magnets, Normal and Superconducting
Accelerator TechnologyLandolt-Börnstein / Springer Materials | 2013| -
Early Collective Expansion: Relativistic Hydrodynamics and the Transport Properties of QCD Matter
Primordial Bulk Plasma Dynamics in Nuclear Collisions at RHICLandolt-Börnstein / Springer Materials | 2010| -
The Chiral Restoration Transition of QCD and Low Mass Dileptons
The Hadron-Parton Phase TransitionLandolt-Börnstein / Springer Materials | 2010| -
10.6 LHC
The Largest Accelerators and Colliders of Their TimeLandolt-Börnstein / Springer Materials | 2013| -
8.4 High Precision Power Converters for Particle Accelerators
Accelerator TechnologyLandolt-Börnstein / Springer Materials | 2013| -
Hadronic Fluctuations and Correlations
The Final Expansion State of Relativistic Nuclear CollisionsLandolt-Börnstein / Springer Materials | 2010| -
Jet Quenching in Heavy Ion Collisions
Selective Tracer Signals of the QCD Plasma StateLandolt-Börnstein / Springer Materials | 2010| -
Neutron resonance spectroscopy for the characterization of materials and objects
Landolt-Börnstein / Springer Materials | 2015| -
11.5 Heavy Ion Accelerators for Nuclear Physics
Application of Accelerators and Storage RingsLandolt-Börnstein / Springer Materials | 2013| -
6.10 Beam Cooling
Design and Principles of Synchrotrons and Circular CollidersLandolt-Börnstein / Springer Materials | 2013| -
11.1 Synchrotron Radiation and Free-Electron Lasers
Application of Accelerators and Storage RingsLandolt-Börnstein / Springer Materials | 2013| -
10.5 The Electron-Proton Collider HERA
The Largest Accelerators and Colliders of Their TimeLandolt-Börnstein / Springer Materials | 2013| -
8.6 Beam Instrumentation and Diagnostics
Accelerator TechnologyLandolt-Börnstein / Springer Materials | 2013| -
6.5 Synchrotron Radiation and Damping
Design and Principles of Synchrotrons and Circular CollidersLandolt-Börnstein / Springer Materials | 2013| -
6.2 Lattice Insertions
Design and Principles of Synchrotrons and Circular CollidersLandolt-Börnstein / Springer Materials | 2013| -
10.2 RHIC
The Largest Accelerators and Colliders of Their TimeLandolt-Börnstein / Springer Materials | 2013| -
7.9 Recirculating Linacs and Power Recovery
Design and Principles of Linear Accelerators and CollidersLandolt-Börnstein / Springer Materials | 2013| -
7.2 The Only Linear Collider Built so Far: the SLC
Design and Principles of Linear Accelerators and CollidersLandolt-Börnstein / Springer Materials | 2013| -
10.4 Asymmetric B–Factories
The Largest Accelerators and Colliders of Their TimeLandolt-Börnstein / Springer Materials | 2013| -
10.3 Electron Accelerators and Electron–Positron Colliders
The Largest Accelerators and Colliders of Their TimeLandolt-Börnstein / Springer Materials | 2013| -
6.9 Ion Colliders
Design and Principles of Synchrotrons and Circular CollidersLandolt-Börnstein / Springer Materials | 2013| -
6.6 Computer Codes for Beam Dynamics
Design and Principles of Synchrotrons and Circular CollidersLandolt-Börnstein / Springer Materials | 2013| -
7.7 Focusing at Interaction Point
Design and Principles of Linear Accelerators and CollidersLandolt-Börnstein / Springer Materials | 2013| -
7.6 Wakefields and Emittance Preservation
Design and Principles of Linear Accelerators and CollidersLandolt-Börnstein / Springer Materials | 2013| -
6.3 Injection and Extraction Techniques
Design and Principles of Synchrotrons and Circular CollidersLandolt-Börnstein / Springer Materials | 2013| -
8.9 Geodesy and Alignment for Particle Accelerators
Accelerator TechnologyLandolt-Börnstein / Springer Materials | 2013| -
7.8 Low Emittance Generation
Design and Principles of Linear Accelerators and CollidersLandolt-Börnstein / Springer Materials | 2013| -
7.4 CLIC & ILC
Design and Principles of Linear Accelerators and CollidersLandolt-Börnstein / Springer Materials | 2013| -
7.3 High Luminosity Issues and Beam-Beam Effects
Design and Principles of Linear Accelerators and CollidersLandolt-Börnstein / Springer Materials | 2013| -
7.1 General Introduction on Linear Accelerators
Design and Principles of Linear Accelerators and CollidersLandolt-Börnstein / Springer Materials | 2013| -
6.4 Concept of Luminosity
Design and Principles of Synchrotrons and Circular CollidersLandolt-Börnstein / Springer Materials | 2013| -
11.4 Spallation Sources
Application of Accelerators and Storage RingsLandolt-Börnstein / Springer Materials | 2013| -
11.6 Accelerators in Energy Research
Application of Accelerators and Storage RingsLandolt-Börnstein / Springer Materials | 2013|
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