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@INPROCEEDINGS{Adrian:852672,
author = {Adrian, Juliane and Tezkan, Bülent},
title = {2{D} inversion of {DCR} and {T}ime {D}omain {IP} data using
a {F}inite {E}lement approach on an unstructured mesh: an
example from ore exploration},
reportid = {FZJ-2018-05545},
year = {2016},
abstract = {Ore deposits often appear as disseminated sulfidic
materials. Exploring these deposits with the Direct Current
Resistivity (DCR) method alone is often challenging because
the resistivity signatures caused by disseminated material
is hard to detect. On the other hand, the Time-domain
Induced Polarization (TDIP) method is qualified to detect
areas with disseminated sulfidic ores due to large electrode
polarization effects which result in large chargeability
anomalies. By employing both methods we gain information
about both, the resistivity and the chargeability
distribution of the subsurface.Here, we present the newly
developed 2D smoothness constraint inversion algorithm for
DCR and TDIP data. The implemented forward algorithm uses a
Finite Element approach with an unstructured mesh. The model
parameters resistivity and chargeability are connected by a
conductivity perturbation approach. It is shown, that the
resolution of chargeability anomalies is not strongly
effected by the corresponding resistivity anomaly.As a case
study, the 2D inversion results of DCR/TDIP and RMT data
obtained during a survey on a sulfidic copper ore deposit in
Turkey are presented.},
month = {Mar},
date = {2016-03-14},
organization = {Annual Meeting of the German
Geophysical Society, Münster
(Germany), 14 Mar 2016 - 17 Mar 2016},
subtyp = {After Call},
typ = {PUB:(DE-HGF)6},
url = {https://juser.fz-juelich.de/record/852672},
}
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