Here is a collection of examples for the use of EasySpin, divided into several categories. They are an excellent starting point for writing your own code.
Data analysisdeadtime.m | ESEEM dead time correction with ctafft() |
denoise.m | Various methods for de-noising spectral data |
excitew.m | ENDOR excitation widths and orientation selectivity |
nitrosalt.m | ENDOR of 14N, line broadening, separate output |
oripreselect.m | Speed-up of ENDOR simulations using orientation pre-selection |
oripreselect2.m | Speed-up of ENDOR simulations using orientation pre-selection |
oriselection.m | ENDOR orientation selection in a powder |
userpreselect.m | User-supplied orientation pre-selection |
fast_fnb.m | Parafluoronitrobenzene (multinuclear system), fast-motional regime |
fremysalt.m | Fremy's salt (PADS), motional narrowing |
nitroxide_tcorr.m | Nitroxide radical, various correlation times |
basicfit.m | Basic example of fitting using Matlab's fminsearch |
biarylradical.m | Bridged biaryl cation radical (1000s of lines) |
biphenyl.m | Biphenyl radical anion in DME |
naphthalene.m | Naphthalene radical anion and cation |
pentacene.m | Pentacene radical anion and cation |
phenalenyl.m | Phenalenyl radical anion, including 13C satellite lines |
pulsprof.m | Excitation profile of a mw pulse |
threepeseem.m | Three-pulse ESEEM |
twopecho.m | Two-pulse echo |
twopeseem.m | Two-pulse ESEEM |
cupc.m | Slow-motion spectrum of copper phthalocyanine in sulfuric acid |
nitroxide_basic.m | Simple slow-motional cw EPR spectrum simulation of a nitroxide radical |
nitroxide_frq.m | Frequency dependence of nitroxide slow-motional spectra |
nitroxide_tcorr.m | Correlation time dependence of a nitroxide spectrum |
slow_fast.m | Comparison between fast- and slow-motion simulation algorithms |
tempone.m | Slow-motional EPR spectrum of TEMPONE |
xchange.m | Effect of Heisenberg exchange in a nitroxide sample |
broaden.m | Line width models for cw EPR spectra |
copper_sxq.m | A Cu(II) complex at S, X and Q band |
criii.m | Cr(III) at Q band |
cumnt2.m | [Cu(mnt)2] at 1.4 GHz, single-crystal |
eespins.m | Two coupled electrons |
gstrain.m | Effect of g strain at various mw frequencies |
lipoxygenase.m | High-spin iron(III) spectrum of lipoxygenase-1, E/D distribution |
mn_strain.m | Mn(II) at X band with D strain |
naphtahlene_triplet.m | Excited triplet state of naphthalene in a duren host |
nematic.m | An planar Cu(II) centre in a nematic liquid crystal phase |
nonequipop1.m | Triplet powder spectrum, with non-equilibrium populations (simple) |
nonequipop2.m | Single-crystal spectra of triplet with non-equilibrium populations |
temp.m | Temperature effects for cw EPR |
trifluormethyl.m | CF3 radical in gas matrix at low temperature |
triplet_ion.m | Simple high-spin S=1 simulation |
cwmultiphoton.m | Cw EPR as a multiphoton experiment |
overmodulation.m | Effect of modulation amplitude on the line shape in cw EPR |
spinopxyz.m | Quick way to compute spin matrices by hand |
symmdemo.m | Hamiltonian symmetry using symm() |
terbium.m | Resonances of a Tb4+ system, animated |