eprintid: 494
rev_number: 4
eprint_status: archive
userid: 5
dir: disk0/00/00/04/94
datestamp: 2011-08-02
lastmod: 2013-07-01 11:20:32
status_changed: 2013-07-01 11:20:32
type: techreport
metadata_visibility: show
item_issues_count: 0
creators_name: Franceschini, Davide
creators_name: Abubakar, Aria
creators_name: Habashy, T.M.
creators_name: Massa, Andrea
title: Three-Dimensional Forward Solvers Based on Improved Formulations of the Extended Born Approximation
ispublished: pub
subjects: TU
full_text_status: public
abstract: A wide number of applications, like subsurface detection, medical imaging and non-destructive evaluation and testing, require the modeling of the full three-dimensional scattering in the complex scenarios. Integral equation method is one of the effective and powerful tools for solving such electro-magnetic problems.
date: 2011-01
date_type: published
institution: University of Trento
department: informaticat
refereed: FALSE
referencetext: 1. M. Born, Optik, Springer-Verlag, New York, 1933. 2. M. Nieto-Vesperinas, Scattering and Diffraction in Physical Optics, Wiley, New York, 1991. 3. T. M. Habashy, R. W. Groom, and B. Spies, “Beyond the Born and Rytov approximations: a non linear approach to electromagnetic scattering,” J. Geophys. Res., vol. 98, pp. 1759-1775, 1993. 4. C. Torres-Verdin and T. M. Habashy, “Rapid numerical simulations of axissymmetric single-well induction data using the Extended Born approximation,” Radio Sci., vol. 36, pp. 1287-1306, 2001. 5. A. Abubakar and T. M. Habashy, “A Green function formulation of the Extended Born approxi- mation for three-dimensional electromagnetic modeling,” Wave Motion, vol. 41, pp. 211-227, 2005.
citation:   Franceschini, Davide and Abubakar, Aria and Habashy, T.M. and Massa, Andrea  (2011) Three-Dimensional Forward Solvers Based on Improved Formulations of the Extended Born Approximation.  [Technical Report]     
document_url: http://www.eledia.org/students-reports/494/1/DISI-11-257.C108.pdf