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spherspheroid.f

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https://doi.org/10.11578/dc.20240117.319

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Abstract

Program spherspheroid.f scales the solution of electromagnetic forward problem for a plane wave magnetic field impingent on a sphere of arbitrary resistivity, relative permeability, and relative permitivity, for magnetic and electric dipole moments to approximate those due to a spheroid of the desired size and aspect ratio, using D.C. and high frequency limits for the sphere adn spheroid, as documented in J.T. Smith and H.F. Morrison, 2006, "Approximating spheroid inductive responses using spheres"(Geophysics, vol 71, G21-G25), Results are given in either time or frequency domain. Time domain results allow modeling turn-on or turn-off step function transmitter wave forms, or square pulse and half sine pulse wave functions with arbitrary pulse length and repetition rate. Pulses may be either uni-modal or bi-modal (alternating sign each half period).
Developers:
Release Date:
2013-01-03
Project Type:
Closed Source
Software Type:
Scientific
Programming Languages:
Fortran-90 compiler
Sponsoring Org.:
Code ID:
120006
Site Accession Number:
5165
Research Org.:
Lawrence Berkeley National Laboratory (LBNL), Berkeley, CA (United States)
Country of Origin:
United States

RESOURCE

Availability

For questions about obtaining this software, please contact ipo@lbl.gov.

https://doi.org/10.11578/dc.20240117.319

SAVE / SHARE



LBNL Badge

Citation Formats

Smith, J. T. spherspheroid.f. Computer Software. USDOE. 03 Jan. 2013. Web. doi:10.11578/dc.20240117.319.
Smith, J. T. (2013, January 03). spherspheroid.f. [Computer software]. https://doi.org/10.11578/dc.20240117.319.
Smith, J. T. "spherspheroid.f." Computer software. January 03, 2013. https://doi.org/10.11578/dc.20240117.319.
@misc{ doecode_120006,
title = {spherspheroid.f},
author = {Smith, J. T.},
abstractNote = {Program spherspheroid.f scales the solution of electromagnetic forward problem for a plane wave magnetic field impingent on a sphere of arbitrary resistivity, relative permeability, and relative permitivity, for magnetic and electric dipole moments to approximate those due to a spheroid of the desired size and aspect ratio, using D.C. and high frequency limits for the sphere adn spheroid, as documented in J.T. Smith and H.F. Morrison, 2006, "Approximating spheroid inductive responses using spheres"(Geophysics, vol 71, G21-G25), Results are given in either time or frequency domain. Time domain results allow modeling turn-on or turn-off step function transmitter wave forms, or square pulse and half sine pulse wave functions with arbitrary pulse length and repetition rate. Pulses may be either uni-modal or bi-modal (alternating sign each half period).},
doi = {10.11578/dc.20240117.319},
url = {https://doi.org/10.11578/dc.20240117.319},
howpublished = {[Computer Software] \url{https://doi.org/10.11578/dc.20240117.319}},
year = {2013},
month = {jan}
}