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Title: timesphere6.f software

Abstract

Solves the electromagnetic forward problem for a plane wave or magnetic dipole fields impingent on a set of spherical shells in a whole space of uniform resistivity, relative permeability , and relative permitivity for electric fields and magnetic fields of internal origin at nrcv receivers and nf frequencies. For receivers outside the largest sphere these are standard secondary fields. Results are given in either time or frequency domain. Time domain results allow modelling turn-on or turn-off step function transmitter wave forms, or square pulse and half sine pulse wave funcitons with arbitrary pulse length and repetition rate. Pulses may be either uni-modal or bi-modal (alternating sign each half period).

Developers:
 [1]
  1. Lawrence Berkeley National Lab. (LBNL), Berkeley, CA (United States)
Release Date:
Project Type:
Closed Source, Site Hosted
Software Type:
Scientific
Licenses:
Other
Sponsoring Org.:
USDOE

Primary Award/Contract Number:
AC02-05CH11231
Code ID:
20649
Site Accession Number:
2013-121
Research Org.:
Lawrence Berkeley National Lab. (LBNL), Berkeley, CA (United States)
Country of Origin:
United States

Citation Formats

Smith, Jeremy, and USDOE. timesphere6.f software. Computer software. USDOE. 17 Sep. 2014. Web. doi:10.11578/dc.20181120.1.
Smith, Jeremy, & USDOE. (2014, September 17). timesphere6.f software [Computer software]. doi:10.11578/dc.20181120.1.
Smith, Jeremy, and USDOE. timesphere6.f software. Computer software. September 17, 2014. doi:10.11578/dc.20181120.1.
@misc{osti_1482827,
title = {timesphere6.f software},
author = {Smith, Jeremy and USDOE},
abstractNote = {Solves the electromagnetic forward problem for a plane wave or magnetic dipole fields impingent on a set of spherical shells in a whole space of uniform resistivity, relative permeability , and relative permitivity for electric fields and magnetic fields of internal origin at nrcv receivers and nf frequencies. For receivers outside the largest sphere these are standard secondary fields. Results are given in either time or frequency domain. Time domain results allow modelling turn-on or turn-off step function transmitter wave forms, or square pulse and half sine pulse wave funcitons 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.20181120.1},
year = {2014},
month = {9},
note =
}

Software:

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