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Integral cross sections for electron impact excitation of vibrational and electronic states in phenol

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Neves, R.F.C. and Jones, D. B. and Lopes, M. C. A. and Blanco Ramos, Francisco and García, G. and Ratnavelu, K. and Brunger, M. J. (2015) Integral cross sections for electron impact excitation of vibrational and electronic states in phenol. Journal of chemical physics, 142 (19). ISSN 0021-9606

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Official URL: http://dx.doi.org/10.1063/1.4921313


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Abstract

We report on measurements of integral cross sections (ICSs) for electron impact excitation of a series of composite vibrational modes and electronic-states in phenol, where the energy range of those experiments was 15-250 eV. There are currently no other results against which we can directly compare those measured data. We also report results from our independent atom model with screened additivity rule correction computations, namely, for the inelastic ICS (all discrete electronic states and neutral dissociation) and the total ionisation ICS. In addition, for the relevant dipole-allowed excited electronic states, we also report f-scaled Born-level and energy-corrected and f-scaled Born-level (BE f-scaled) ICS. Where possible, our measured and calculated ICSs are compared against one another with the general level of accord between them being satisfactory to within the measurement uncertainties. (C) 2015 AIP Publishing LLC.


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© 2015 AIP Publishing LLC.
This work was supported by the Australian, Brazilian, and Spanish governmental funding agencies (ARC, CNPq, CAPES, and MINECO). D.B.J. thanks the ARC for a Discovery Early Career Researcher Award. R.F.C.N. acknowledges CNPq and Flinders University for financial assistance, while M.J.B. thanks CNPq for his "Special Visiting Professor" award and the University of Malaya for his "Distinguished Visiting Professor" award. M.C.A.L. acknowledges financial support from CNPq and FAPEMIG, while G.G. acknowledges financial support from MINECO (No. FIS2012-31230) and COST (Nos. MP1002 and CM1301).

Uncontrolled Keywords:Low-energy-electron; Tetrahydrofurfuryl alcohol; Biomedical applications; Horseradish-peroxidase; Scattering; Transport; Removal
Subjects:Sciences > Physics > Nuclear physics
ID Code:31334
Deposited On:16 Jul 2015 10:34
Last Modified:10 Dec 2018 14:57

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