Concept

Storage ring

Related lectures (21)

Covers the Hamiltonian formalism, linear equations, Courant-Snyder parametrization, and chromatic effects in accelerator physics.

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Explores Hamiltonians for machine elements, focusing on drift space, magnets, and linear maps.

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Covers the properties of synchrotron radiation, including its emission by relativistic particles and its effect on the beam through radiation damping.

Collective Effects: Basics and Mitigation

Explores collective effects in accelerators, discussing instabilities, mitigation techniques, and impedance reduction.

Accelerator Technology and Instrumentation

Explores advanced concepts in particle accelerators, including magnets, novel techniques, instrumentation, optimization, diagnostics, safety measures, storage rings, and synchrotron light monitors.

Longitudinal dynamics, non-linear dynamics

Explores longitudinal dynamics, energy gain, resonance conditions, and chaotic behavior in particle accelerators.

Plasma Characteristics: Interstellar Space to Solar Corona

Explores the characteristics of typical plasmas from interstellar space to solar corona, discussing temperature, number density, collision processes, and properties.

Beam Dynamics: Orbits and Emittance

Explores reference, design, and closed orbits, as well as emittance and beam size in particle accelerators.

Non-linear dynamics

Explores practical applications in nonlinear dynamics, emphasizing symplectic integration methods and thin lens approximations for accurate computations in accelerator physics.

Non-linear dynamics: phenomenology, tools and methods

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