Synchrotron components in relation to core- physics - under construction

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Forces & Motion

Matter & Materials

Waves

Electricity & Magnetism

Electron production and storage

Linear accelerator

Charge in a DC electric field

Thermionic emission

DC electric fields

RF Cavity accelerator

Charge in an AC electric field

Oscillating fields

AC electric fields

Bending magnets

Charge in a magnetic field

Magnet design & manufacture

Magnetic fields

Vacuum

Vacuum pumps

(turbomolecular & ion pumps)

Ultra-high vacuum

Pressure measurement:

ion guages and mass spectrometers

Light production and manipulation

Wigglers & undulators

(Insertion devices)

Spatially varying magnetic fields

Magnet design & manufacture

Interference

Magnetic fields

Thermal properties of materials

Induced current

Mirrors

Thermal properties

Surface Reflection

Diffraction grating monochromator

Micropositioning and synchronous rotation systems

Material penetration and reflection as a function of wavelength

Multiple “slit” interference - constructive and destructive

Crystal (Braggs Law) monochromator

Surface flatness

Zone plates

Material transmission as a function of wavelength

Diffractive lenses

Using the light for experimental studies

Thompson Scattering

Light - Wave like

Compton Scattering

Photon momentum & conservation

Light - Particle like

Photoabsorption

Atomic structure - shell structure, valence electrons, inner-shell electrons, Moseleys law

Atomic structure - electrostatic interactions of charged particles

Fluorescence

Photoelectrons

Photoions

Detectors

Electron emission from surfaces

Current amplification

Peter Hammond  2004