Abstract
This paper develops methodology for computer simulation of the effect on an experimental EPR spectrum that would occur if an additional field modulation were applied followed by eventual phase sensitive detection at the modulation frequency or at one its harmonics. The algorithm, which is called pseudomodulation, transforms the digitized spectrum and also filters the noise. If a second harmonic spectrum is desired in order to make subtle changes in curvature more apparent, it is shown that it is always preferable to obtain an experimental second harmonic spectrum. The signals are identical, but because of the filtering properties of the pseudomodulation algorithm, the noise is lower. Pseudomodulation should be applied to simulated spectra prior to fitting a model to data in order more precisely to simulate the experimental signal. It is argued that such fits ought to involve not only first harmonics but also higher harmonics, since the various harmonics are sensitive in different ways to input parameters in the spin Hamiltonian. Application of pseudomodulation to the EPR spectrum of the blue copper-protein azurin is described.
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References
Poole Jr., C.P.: Electron Spin Resonance, Wiley-Interscience: New York 1983.
Berger, P.A., Günthart, H.H.: Z. Angew. Math. Phys.13, 310 (1962)
Wilson, G.V.H.: J. Appl. Phys.34, 3276 (1963)
Ernst, R.R. in: Advances in Magnetic Resonance,2, pp. 1–137 (J.S. Waugh, ed.) Academic: New York 1966.
Hyde, J.S., Pasenkiewicz-Gierula, M., Basosi, R., Froncisz, W., Antholine, W.E.: J. Magn. Res.82, 63–75 (1989)
Hyde, J.S., Sczaniecki, P.B., Froncisz, W.: J. Chem. Faraday Trans. I85, 3901–3912 (1989)
Froncisz, W., Sczaniecki, P.B., Hyde, J.S.: Phys. Med. (in press)
Sczaniecki, P.B., Hyde, J.S., Froncisz, W.: J. Chem. Phys.93, 3891–3898 (1990)
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Hyde, J.S., Pasenkiewicz-Gierula, M., Jesmanowicz, A. et al. Pseudo field modulation in EPR spectroscopy. Appl Magn Reson 1, 483–496 (1990). https://doi.org/10.1007/BF03166028
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DOI: https://doi.org/10.1007/BF03166028