ESR powder line shape calculations
ESR powder line shape calculations
A program has been developed for computing the ESR spectrum of a collection of randomly oriented spins subject only to an electronic Zeeman interaction and having a Lorentzian single crystal line shape. Other single crystal line shapes, including numerical solutions of the Bloch equations, can be accommodated with minor modifications. The program differs in several features from those existing elsewhere, thus enabling one to study saturation effects, over-modulation effects, both absorptive and dispersive signals, and second and higher order derivative signals.
- University of North Texas United States
Numerical Solution, Computer Calculations, Radiochemistry, Superconductivity And Superfluidity, Equations, Computer Codes, 36 Materials Science, Resonance 656000* -- Condensed Matter Physics, Amorphous State, Saturation, Electron Spin Resonance, 75 Condensed Matter Physics, Dielectric Materials, Zeeman Effect, 360603 -- Materials-- Properties, 38 Radiation Chemistry, Magnetic Resonance, 400600 -- Radiation Chemistry, And Nuclear Chemistry, Bloch Equations
Numerical Solution, Computer Calculations, Radiochemistry, Superconductivity And Superfluidity, Equations, Computer Codes, 36 Materials Science, Resonance 656000* -- Condensed Matter Physics, Amorphous State, Saturation, Electron Spin Resonance, 75 Condensed Matter Physics, Dielectric Materials, Zeeman Effect, 360603 -- Materials-- Properties, 38 Radiation Chemistry, Magnetic Resonance, 400600 -- Radiation Chemistry, And Nuclear Chemistry, Bloch Equations
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