introduction to synchrotron radiation

6
Introduction to Synchrotron Radiation http://serc.carleton.edu/NAGTWorkshops/mineralogy/mineral_physics/ synchrotron_facilities.html

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Page 1: Introduction to Synchrotron Radiation

Introduction to Synchrotron Radiation

http://serc.carleton.edu/NAGTWorkshops/mineralogy/mineral_physics/synchrotron_facilities.html

Page 2: Introduction to Synchrotron Radiation

Synchrotron radiation

• Produces high energy particles (protons, neutrons, electrons)

• Particles produced in electron gun by a heated tungsten oxide cathode

• Magnets and radio frequency accelerate particles in a circular path

http://www.aps.anl.gov/About/Welcome/

• Produces spectrum with broad wavelengths and strengths

Page 3: Introduction to Synchrotron Radiation

Where do the particles go?Electron gun

Booster ring

Storage ring

Beamline

Optics cabin

Instrument www.diamond.ac.uk

Page 4: Introduction to Synchrotron Radiation

Breadth of techniques

SpectroscopyHard x-ray spectroscopyMetrologyOpticsDetector CalibrationsSoft x-ray spectroscopy

Scattering

Hard x-ray diffractionHard x-ray scatteringMacromolecular crystallographySoft x-ray scattering

Imaging

Hard x-ray imagingLithographySoft x-ray scattering

https://beam.aps.anl.gov/pls/apsweb/beamline_display_pkg.technique_dir

Page 5: Introduction to Synchrotron Radiation

Is it worth it?

Advantages• Continuous spectrum• High flux• High brightness• High coherence• Better signal to noise

ratio• Able to detect nanoscale

materials

Disadvantages• Have proposal accepted• Travel to beamline• Beamline instability

Page 6: Introduction to Synchrotron Radiation

Where are synchrotrons in USA?