Selected publications on the SNMR-method
- Behroozmand, A. A., Keating, K., & Auken, E. (2014). A Review of the Principles and Applications of the NMR Technique for Near-Surface Characterization. Surveys in Geophysics 36 (1), 27 – 85.
- Costabel, S. & Günther, T. (2014). Noninvasive estimation of water retention parameters by observing the capillary fringe with magnetic resonance sounding. Vadose Zone J. 13(6), doi: 102136/vzj2013.09.0163.
Costabel, S., Dlugosch, R., Günther, T., and Müller-Petke, M. (2016).
Torus-NMR: quasi-continuous airborne magnetic resonance profiling by using a helium-filled balloon, Geophysics 81 (4), WB119-WB129, doi: 10.1190/GEO2015-0467.1.
- Dalgaard, E., Auken, E., and Larsen, J. J. (2012). Adaptive noise cancelling of multichannel magnetic resonance sounding signals. Geophysical Journal International 191 (1), 88 – 100.
- Dlugosch, R., Mueller-Petke, M., Guenther, T., Costabel, S. & Yaramanci, U. (2011). Assessment of the potential of a new generation of surface NMR instruments, Near Surf. Geophys., 9(2), 89–102.
Dlugosch, R., Günther, T., Müller-Petke, M., & Yaramanci, U. (2014).
Two-dimensional distribution of relaxation time and water content from surface NMR. - Near Surf. Geophysics 12, 231-241.
- Dunn, K.J., Bergman, D.J. and Latorraca, G.A. (2002). Nuclear magnetic resonance—petrophysical and logging applications. Elsevier, Amsterdam.
- Girard, J.-F., Boucher, M., Legchenko, A., and Baltassat, J.-M. (2007). 2D magnetic resonance tomography applied to karstic conduit imaging, Journal of Applied Geophysics 63, 103 – 116.
- Grombacher, D., Müller-Petke, M., and Knight, R. (2016). Frequency cycling for compensation of undesired off-resonance effects in surface nuclear magnetic resonance, Geophysics
- Grunewald, E., Knight, R., and Walsh, D. (2014). Advancement and validation of surface nuclear magnetic resonance spin-echo measurements of T2. Geophysics 79(2), EN15-EN23.
Grunewald, E., D. Grombacher, and D. Walsh (2016).
Adiabatic Pulses Enhance Surface-NMR Groundwater Investigations and Survey Speed, Geophysics 81 (4), WB85-WB96, doi: 10.1190/geo2015-0527.1.
Günther, T. & Müller-Petke, M. (2012).
Hydraulic properties at the North Sea island of Borkum derived from joint inversion of magnetic resonance and electrical resistivity soundings, Hydrology and Earth System Sciences, 16, 3279–3291.
Hertrich, M., Green, A. G., Braun, M., und Yaramanci, U., (2009).
High-resolution surface-NMR tomography of shallow aquifers based on multi-offset measurements. Geophysics, 460 74(6), G47–G59.
- Knight, R., Grunewald, E., Irons, T., Dlubac, K., Song, Y., Bachman, H.N., Grau, B., Walsh, D., Abraham, J.D., and Cannia, J. (2012). Field experiment provides ground truth for surface nuclear magnetic resonance measurement. Geophysical Research Letter 39, L03304.
- Legchenko, A., Baltassat, J., Beauce, A., and Bernard, J. (2004). Magnetic resonance sounding applied to aquifer characterization. Groundwater 42 (3), 363 – 373.
- Legchenko, A , Vouillamoz, J.-M., & Roy, J., 2010, Application of the magnetic resonance sounding method to the investigation of aquifers in the presence of magnetic materials. Geophysics 75 (6), L91 – L100.
- Mohnke, O. & Yaramanci, U. (2008). Pore size distributions and hydraulic conductivities of rocks derived from magnetic resonance sounding relaxation data using multi-exponential decay time inversion. Journal of Applied Geophysics 66:73–81.
Müller-Petke, M. & Costabel, S. (2014).
Comparison and optimal parameter setting of reference-based harmonic noise cancellation in time and frequency domain for surface-NMR. Near Surface Geophysics 12(2), 190–210.
- Müller-Petke, M., Braun, M., Hertrich, M., Costabel, S., Walbrecker, J. (2016). MRSmatlab – a software tool for processing, modeling, and inversion of magnetic resonance sounding data data. Geophysics 81 (in print).
- Semenov, A.G., Schirov, M.D., Legchenko, A.V., Burshtein, A.I., Pusep, Y.A. (1989). Device for measuring the parameter of underground mineral deposit. Great Britain, Patent 2198540B.
- Vouillamoz, J.M., Descloitres, M., G. Toe, G., & Legchenko, A. (2005). Characterization of crystalline basement aquifers with MRS: comparison with boreholes and pumping tests data in Burkina Faso. Near Surface Geophysics 3, 2005, 205 – 213.
- Vouillamoz, J.M., Lawson, F.M.A., Yalo, N., and Descloitres, M. (2014). The use of magnetic resonance sounding for quantifying specific yield and transmissivity in hard rock aquifer: The example of Benin. Journal of Applied Geophysics 107, 16 – 24.
- Walbrecker, J. O., Hertrich, M., Lehmann-Horn, J. A., & Green, A. G., 2011, Estimating the longitudinal relaxation time T1 in surface NMR, Geophysics 76 (2), F111–F122.
- Walsh, D.O., Grunewald E. D., Turner P., Hinnell A., & Ferre P.A., 2014, Surface NMR instrumentation and methods for detecting and characterizing water in the vadose zone. Near Surface Geophysics 12, 271 – 284.
Lange, G. und Yaramanci, U. (2005). Oberflächen-Nuklear-Magnetische Resonanz. in Knödel, K., Krummel, H. und Lange, G. (ed.): Handbuch zur Erkundung des Untergrundes von Deponien – Band 3: Geophysik. Springer-Verlag Berlin Heidelberg.
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