Step-on versus step-off signals in time-domain controlled source electromagnetic methods using a grounded electric dipole.

Haroon, Amir , Jegen, Marion , Swidinsky, Andrei, Hölz, Sebastian and Tezkan, Buelent (2020) Step-on versus step-off signals in time-domain controlled source electromagnetic methods using a grounded electric dipole. Open Access Geophysical Prospecting, 68 (9). pp. 2825-2844. DOI 10.1111/1365-2478.13016.

[thumbnail of 1365-2478.13016(1).pdf]
Preview
Text
1365-2478.13016(1).pdf - Published Version
Available under License Creative Commons: Attribution 4.0.

Download (2MB) | Preview

Supplementary data:

Abstract

The time‐domain controlled source electromagnetic method is a geophysical prospecting tool applied to image the subsurface resistivity distribution on land and in the marine environment. In its most general setup, a square‐wave current is fed into a grounded horizontal electric dipole, and several electric and magnetic field receivers at defined offsets to the imposed current measure the electromagnetic response of the Earth. In the marine environment, the application often uses only inline electric field receivers that, for a 50% duty‐cycle current waveform, include both step‐on and step‐off signals. Here, forward and inverse 1D modelling is used to demonstrate limited sensitivity towards shallow resistive layers in the step‐off electric field when transmitter and receivers are surrounded by conductive seawater. This observation is explained by a masking effect of the direct current signal that flows through the seawater and primarily affects step‐off data. During a step‐off measurement, this direct current is orders of magnitude larger than the inductive response at early and intermediate times, limiting the step‐off sensitivity towards shallow resistive layers in the seafloor. Step‐on data measure the resistive layer at times preceding the arrival of the direct current signal leading to higher sensitivity compared to step‐off data. Such dichotomous behaviour between step‐on and step‐off data is less obvious in onshore experiments due to the lack of a strong overlying conductive zone and corresponding masking effect from direct current flow. Supported by synthetic 1D inversion studies, we conclude that time‐domain controlled source electromagnetic measurements on land should apply both step‐on and step‐off data in a combined inversion approach to maximise signal‐to‐noise ratios and utilise the sensitivity characteristics of each signal. In an isotropic marine environment, step‐off electric fields have inferior sensitivity towards shallow resistive layers compared to step‐on data, resulting in an increase of non‐uniqueness when interpreting step‐off data in a single or combined inversion.

Document Type: Article
Keywords: Electromagnetics, Modelling, Noise, Numerical study, resistivity
Research affiliation: OceanRep > GEOMAR > FB4 Dynamics of the Ocean Floor > FB4-GDY Marine Geodynamics
Refereed: Yes
Open Access Journal?: No
Publisher: Wiley
Projects: MarTERA, Digital Earth
Date Deposited: 30 Jul 2020 07:55
Last Modified: 08 Feb 2023 09:34
URI: https://oceanrep.geomar.de/id/eprint/50196

Actions (login required)

View Item View Item