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Institut for Geoscience

Publikationsoversigt for Institut for Geoscience

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Zimmermann, H. D. (2001). Optical Crystallography. Lithos, 59, 151-152.

Buylaert, J. P., Murray, A. S. & Huot, S. (2008). Optical dating of an Eemian site in Northern Russia using K-feldspar. Radiation Measurements, 43, 715-720.

Rasmussen, C. F., Buylaert, J.-P., Tifratine, S., Eddine Kamal Kamal, T., Murray, A. S. & Cunha, P. (2019). Optical dating of a Pleistocene coastal succession at Mogador (Essaouira, Atlantic Morocco): first results.

Buylaert, J. P., Murray, A. S., Vandenberghe, D., Vriend, M., De Corte, F. & Van den Haute, P. (2008). Optical dating of Chinese loess using sand-sized quartz: Establishing a time frame for Late Pleistocene climate changes in the western part of the Chinese Loess Plateau. Quaternary Geochronology, 3, 99-113.

Cunha, P. P., Buylaert, J.-P., Murray, A. S., Andrade, C., Freitas, M. C., Fatela, F., Munhá, J. M., Martins, A. A. & Sugisaki, S. (2010). Optical dating of clastic deposits generated by an extreme marine coastal flood: the 1755 tsunami deposits in the Algarve (Portugal). Quaternary Geochronology, 5(2-3), 329-335. https://doi.org/10.1016/j.quageo.2009.09.004

Souza, P. E., Sohbati, R., Murray, A. S., Clemmensen, L. B., Kroon, A. & Nielsen, L. (2021). Optical dating of cobble surfaces determines the chronology of Holocene beach ridges in Greenland. Boreas, 50(2), 606-618. https://doi.org/10.1111/bor.12507

Madsen, A. T., Murray, A. S. & Andersen, T. J. (2007). Optical dating of dune ridges on Rømø, a barrier island in the Wadden Sea, Denmark. Journal of Coastal Research, 23, 1259-1269.

Thomas, P. J., Murray, A. S., Granja, H. M. & Jain, M. (2008). Optical dating of Late Quaternary coastal deposits in northwestern Portugal. Journal of Coastal Research, 24, 134-144.

Sohbati, R., Borella, J., Murray, A., Quigley, M. & Buylaert, J.-P. (2016). Optical dating of loessic hillslope sediments constrains timing of prehistoric rockfalls, Christchurch, New Zealand. Journal of Quaternary Science, 31(7), 678–690. https://doi.org/10.1002/jqs.2895

Buylaert, J.-P., Ghysels, G., Murray, A. S., Thomsen, K. J., Vandenberghe, D., De Corte, F., Heyse, I. & Van den haute, P. (2009). Optical dating of relict sand wedges and composite-wedge pseudomorphs in Flanders, Belgium. Boreas, 38(1), 160-175. https://doi.org/10.1111/j.1502-3885.2008.00037.x

Madsen, A. T., Murray, A. S., Andersen, T. J. & Pejrup, M. (2007). Optical dating of young tidal sediments in the Danish Wadden Sea. Quaternary Geochronology, 2, 89-94.

Gunnlaugsson, H. P., Jensen, J., Kinch, K., Merrison, J., Madsen, M. B., Nørnberg, P., Rasmussen, K. R., Walgren, H. & Weyer, G. (2003). Optical detection of Magnetic and Electrically charged dust particles on Mars. (Abstract #3044 udg.) (s. 0-0). Lunar and Planetary Institute, Houston.

Pagonis, V., Ankjærgaard, C., Murray, A. S. & Chen, R. (2009). Optically stimulated exoelectron emission processes in quartz: comparison of experiment and theory. Journal of Luminescence, 129(9), 1003-1009. https://doi.org/10.1016/j.jlumin.2009.04.014

Jain, M., Murray, A. S. & Bøtter-Jensen, L. (2004). Optically stimulated luminescence dating: How significant is incomplete light exposure in fluvial environments? Quaternaire, 15, 143-157.

Nielsen, A., Murray, A. S., Pejrup, M. & Elberling, B. (2007). Optically stimulated luminescence dating of a Holocene beach ridge plain in Northern Jutland, Denmark. Quaternary Geochronology, 2, 305-312.

Sohbati, R. (2012). Optically stimulated luminescence dating of rock surfaces. Institut for Geoscience, Aarhus Universitet.

Madsen, A. T., Murray, A. S., Andersen, T. J., Pejrup, M. & Breuning-Madsen, H. (2005). Optically stimulated luminescence dating of young estuarine sediments: a comparison with ²¹⁰Pb and ¹³⁷Cs dating. Marine Geology, 214, 251-268.

Madsen, A. T. & Murray, A. S. (2009). Optically stimulated luminescence dating of young sediments: a review. Geomorphology, 109(1-2, Special Issue), 3-16. https://doi.org/10.1016/j.geomorph.2008.08.020

Jakobsson, M., Backman, J., Murray, A. & Løville, R. (2003). Optically stimulated luminescence dating supports central Arctic Ocean cm-scale sedimentation rates. Geochemistry, Geophysics, Geosystems, 4, 1016-1027.

Bøtter-Jensen, L. & Murray, A. S. (2002). Optically stimulated luminescence in retrospective dosimetry. Radiation Protection Dosimetry, 101, 309-314.

Sohbati, R., Murray, A. S., Chapot, M., Jain, M. & Pederson, J. (2012). Optically stimulated luminescence (OSL) as a chronometer for surface exposure dating. Journal of Geophysical Research: Solid Earth, 117(B9), B09202. https://doi.org/10.1029/2012JB009383

Vafiadou, A., Murray, A. S. & Liritzis, I. (2007). Optically stimulated luminescence (OSL) dating investigations of rock and underlying soil from three case studies. Journal of Archaeological Science, 34, 1659-1669.

Sohbati, R., Murray, A. S., Buylaert, J.-P., Almeida, N. & Cunha, P. (2012). Optically stimulated luminescence (OSL) dating of quartzite cobbles from the Tapada do Montinho archaeological site (east-central Portugal). Boreas, 41(3), 452-462. https://doi.org/10.1111/j.1502-3885.2012.00249.x

Zimmermann, H. D. (2010). Optical Mineralogy - An Anachronism? Res Terrae, Ser. A(31), 47 - 51. http://cc.oulu.fi/~resterr/jutut/A31_TuiskuNemliher.pdf

Grombacher, D. J., Vinding, M. S., Vosegaard, T. & Auken, E. (2016). Optimal control to design pulses providing high SNR and sharp resolution in geophysical surface NMR. Poster-session præsenteret på EUROMAR 2016, Aarhus, Danmark.

Christensen, S., Zlotnik, V. A. & Tartakovsky, D. M. (2009). Optimal design of pumping tests in leaky aquifiers for stream depletion analysis. Journal of Hydrology, 375(3-4), 554-565. https://doi.org/10.1016/j.jhydrol.2009.07.006

Strøyberg Klint, K. E., Møller, I., Maurya, P. K. & Christiansen, A. V. (2017). Optimising geological mapping of glacial deposits using high-resolution electromagnetic induction data. Geological Survey of Denmark and Greenland (GEUS) Bulletin, 38, 9-12. http://www.geus.dk/DK/publications/geol-survey-dk-gl-bull/38/Documents/nr38_p09-12.pdf

Ankjærgaard, C., Murray, A. S., Thomsen, K. J. & Jain, M. (2010). Optimising the separation of quartz and feldspar optically stimulated luminescence using pulsed excitation. Radiation Measurements, 45(7), 778-785. https://doi.org/10.1016/j.radmeas.2010.03.004

Bording, T. S., Fiandaca, G., Andersen, T. R., Meldgaard Madsen, L. & Auken, E. (2018). Optimization of backwashing in rapid sand filters by time-domain IP monitoring. Abstract fra 5th International Workshop on Induced Polarization , Newark, USA.

Sohbati, R., Murray, A., Lindvold, L., Buylaert, J.-P. & Jain, M. (2017). Optimization of laboratory illumination in optical dating. Quaternary Geochronology, 39, 105-111. https://doi.org/10.1016/j.quageo.2017.02.010

Dalgaard, E. B., Müller-Petke, M. & Auken, E. (2013). Optimized distribution of SNMR pulse moments and field efficiency evaluated using a model uncertainty analysis. Abstract fra 26th Annual Symposium on the Application of Geophysics for Engineering and Environmental Problems , Denver, Colorado, USA.

Pedersen, J. B., Maurya, P. K., Kraghede, R., Christiansen, A. V., Nielsen, O. F. & Pedersen, J. K. (2021). Optimized management of point-source polluted sites by using 3D geophysics. I 1st Conference on Hydrogeophysics: Contribution to Exploration and Management of Groundwater, Land-Use and Natural Hazards under a Changing Climate, Held at Near Surface Geoscience Conference and Exhibition 2021, NSG 2021 EAGE Publishing BV. https://doi.org/10.3997/2214-4609.202120174

Dalgaard, E. B., Auken, E. & Larsen, J. J. (2012). Optimized Wiener filtering with the Numis Poly system. Abstract fra Magnetic Resonance in the Subsurface, Hannover, Tyskland.

Christiansen, A. V. & Auken, E. (2004). Optimizing a layered and laterally constrained 2D inversion of resistivity data using Broyden's update and 1D derivatives. Journal of Applied Geophysics, 56, 247-261.

Kirkegaard, C. & Auken, E. (2010). Optimizing an Existing Inversion Code. Abstract fra Near Surface 2010 – 16th European Meeting of Environmental and Engineering Geophysics, Zürich, Schweiz.

Dalgaard, E. B., Müller-Petke, M. & Auken, E. (2013). Optimizing distribution of SNMR pulse moments and stacking strategy. Abstract fra 19th European Meeting of Environmental and Engineering Geophysics, Bochum, Tyskland.

Dalgaard, E., Müller-Petke, M. & Auken, E. (2013). Optimizing distribution of SNMR pulse moments and stacking strategy. I Near Surface Geoscience 2013 European Association of Geoscientists and Engineers, EAGE. http://www.scopus.com/inward/record.url?scp=84897516141&partnerID=8YFLogxK

Martinez, M., Krencker, F. N., Mattioli, E. & Bodin, S. (2017). Orbital chronology of the pliensbachian-toarcian transition from the central high Atlas Basin (Morocco). Newsletters on Stratigraphy, 50(1), 47-69. https://doi.org/10.1127/nos/2016/0311

Wang, Y., Bodin, S., Blusztajn, J. S., Ullmann, C. & Nielsen, S. G. (2022). Orbitally paced global oceanic deoxygenation decoupled from volcanic CO₂ emission during the middle Cretaceous Oceanic Anoxic Event 1b (Aptian-Albian transition). Geology, 50(11), 1324-1328. https://doi.org/10.1130/G50553.1

Zhou, L., Zeng, Q., Liu, J., Friis, H., Zhang, Z., Duan, X. & Chu, S. (2015). Ore genesis and fluid evolution of the Daheishan giant porphyry Molybdenum deposit, NE China. Journal of Asian Earth Sciences, 97(Part B), 486-505. https://doi.org/10.1016/j.jseaes.2014.09.037

Liu, A. L., Jiang, M. R., Ulrich, T., Zhang, J. & Zhang, X. J. (2018). Ore genesis of the Bake gold deposit, southeastern Guizhou province, China: Constraints from mineralogy, in-situ trace element and sulfur isotope analysis of pyrite. Ore Geology Reviews, 102, 740-756. https://doi.org/10.1016/j.oregeorev.2018.09.018

Zheng, X. W., Schovsbo, N. H., Bian, L. B., Rudra, A. & Sanei, H. (2023). Organic geochemical and petrographic characteristics of the Cambrian-Ordovician organic-rich marine shales in Scandinavia. Petroleum Science, 20(5), 2637-2647. https://doi.org/10.1016/j.petsci.2023.04.011

Rudra, A., Sanei, H., Nytoft, H. P., Petersen, H. I., Blok, C., Bodin, S. & Bojesen-Koefoed, J. A. (2021). Organic matter characterization of the Lower Cretaceous tight reservoirs in the Danish North Sea. International Journal of Coal Geology, 238, Artikel 103714. https://doi.org/10.1016/j.coal.2021.103714

Sobek, A., Abel, S., Sanei, H., Bonaglia, S., Li, Z., Horlitz, G., Rudra, A., Oguri, K. & Glud, R. N. (2023). Organic matter degradation causes enrichment of organic pollutants in hadal sediments. Nature Communications, 14(1), Artikel 2012. https://doi.org/10.1038/s41467-023-37718-z

Galloway, J. M., Parsons, M. B., Ardakani, O. H., Falck, H., Fewster, R. E., Swindles, G. T., Sanei, H., Palmer, M. J., Nasser, N. A. & Patterson, R. T. (2024). Organic matter is a predominant control on total mercury concentration of near-surface lake sediments across a boreal to low Arctic tundra transect in northern Canada. Science of the Total Environment, 954, Artikel 176466. https://doi.org/10.1016/j.scitotenv.2024.176466

Zhou, Z., Luo, Q., Rudra, A., Petersen, H. I., Schovsbo, N. H. & Sanei, H. (2024). Organic petrographic and geochemical insights into organic matter derived from land plants and marine algae in the Lark Formation, Danish North Sea. International Journal of Coal Geology, 295, Artikel 104627. https://doi.org/10.1016/j.coal.2024.104627

Aviles, M. A., Ardakani, O. H., Cheadle, B. A. & Sanei, H. (2019). Organic petrography and geochemical characterization of the Upper Cretaceous Second White Specks and Upper Belle Fourche alloformations, west-central Alberta: Analysis of local maturity anomalies. International Journal of Coal Geology, 203(February), 60-73. https://doi.org/10.1016/j.coal.2019.01.008

Zheng, X. (2022). Organic petrology and geochemical characteristics of the lower Paleozoic shales of Scandinavia. [Ph.d.-afhandling, Aarhus Universitet]. Aarhus Universitet.

Zhou, Z. (2024). Organic Petrology and Geochemical Insights into the Lark Formation, Danish North Sea. [Ph.d.-afhandling, Aarhus Universitet]. Aarhus University.

Abrahamsen, N. (2002). Orientation of Medieval Churches in Denmark. Afhandling præsenteret på 8-11.7.

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