Last updated:
3-Jan-2012
Lühr, H., T. A. Siddiqui, and S. Maus,
Global characteristics of the lunar tidal modulation of the equatorial electrojet derived from CHAMP observations, submitted to Annales Geophysicae, 2011.
Maus, S., M. C. Nair, B. Poedjono, S. Okewunmi, J. D. Fairhead, U. Barckhausen, P. R. Milligan, J. Matzka,
High Definition Geomagnetic Models: A New Perspective for Improved Wellbore Positioning, submitted December 2011 for IADC/SPE-151436-PP Drilling Conference and Exhibition held in San Diego, California, USA, 6–8 March 2012.
Le, G., W. J. Burke, R. F. Pfaff, H. Freudenreich, S. Maus, and H. Lühr, C/NOFS measurements of magnetic perturbations in the low-latitude ionosphere during magnetic storms, J. Geophys. Res., 116, A12230, doi:10.1029/2011JA017026, December, 2011.
Alken, P., S. Maus, A. D. Richmond, and A. Maute (2011), The ionospheric gravity and diamagnetic current systems, J. Geophys. Res., 116, A12316, doi:10.1029/2011JA017126, December, 2011
Maus. S., and Manoj,
C., Geomagnetic field models for
exploration and directional drilling, expanded abstract, SEG Expanded Abstracts,
30, 2344; doi:10.1190/1.3627677, http://dx.doi.org/10.1190/1.3627677, September, 2011
Gaina, C., S. Werner , R. Saltus, S. Maus and the CAMP-GM group,
Circum-Arctic Mapping Project: New Magnetic and Gravity Anomaly Maps of the Arctic, in Arctic Petroleum Geology (Eds. Spencer, A.M, Gautier, D., Stoupakova, A., Embry, A., and Sørensen, K.), Geol. Soc. London Memoirs, ISBN 978-1-86239-328-8, http://www.geolsoc.org.uk/page10001.html, August, 2011
Manoj, C., S. Maus, and A. Chulliat, Observation of magnetic fields generated by tsunamis, Eos Trans. AGU, 92 , doi:10.1029/2011EO020002, 2011
Finlay, C. C.,
Finlay, C. C.,
(PDF)
Lühr, H. and S. Maus, Solar cycle dependence of magnetospheric currents and a model of their near-Earth magnetic field, Earth, Planets and Space, 62 (No. 10), 843-848, doi: 10.5047/eps.2010.07.012, 2010
Thébault, E., Chulliat, A., Maus, S., Hulot, G., Langlais, B., Chambodut, A., Menvielle, M., IGRF candidate models at times of rapid changes in core field acceleration, Earth Planets and Space, 62 (No. 10),753-763, , doi: 10.5047/eps.2010.05.004, 2010
Silva, L., S. Maus ,
Maus, S., C.
Manoj, J. Rauberg, I. Michaelis and H. Lühr,
NOAA/NGDC candidate models for the 11th generation International Geomagnetic Reference Field and the concurrent release of the 6th generation POMME magnetic model, Earth Planets and Space, 62 (No. 10), 729-735, doi: 10.5047/eps.2010.07.006, 2010
Maus, S., An ellipsoidal harmonic representation of Earth’s
lithospheric magnetic field to degree and order 720, Geochem.
Geophys. Geosyst., 11, Q06015, doi:
10.1029/2010GC003026, 2010
(PDF)
Alken, P. and S. Maus, Relationship between the ionospheric eastward electric field and the equatorial electrojet, Geophysical Research Letters, Volume 37, Issue 4, 10.1029/2009GL041989, 2010
(PDF)
Alken, P., and Maus, S.
Electric fields in the equatorial ionosphere derived from
individual CHAMP satellite orbits, Journal of Atmospheric and Solar-Terrestrial
Physics,
doi:10.1016/j.jastp.2009.02.006, 72, 319–326, 2010
Maus, S., S. Macmillan,
(PDF)
Bruinsma, S., D. Knudsen, H. Lühr,
Conclusions from the Level 1b CAL/VAL workshops, Proceedings
of the Second Swarm International Science meeting,
Olsen, N. and S. Maus, Workshop on magnetic field level 1b
CAL/VAL, Proceedings of the Second Swarm International Science meeting,
Maus, S., U.
Barckhausen, H. Berkenbosch, N. Bournas, J. Brozena,V.
Childers, F.
Dostaler, J. D. Fairhead, C. Finn, R. R. B. von Frese, C.
Gaina, S.
Golynsky, R. Kucks, H. Lühr, P. Milligan, S. Mogren, R. D.
Müller, O.
Olesen, M. Pilkington, R. Saltus, B. Schreckenberger, E.
Thébault, and F. Caratori Tontini,
EMAG2: A 2–arc min resolution Earth Magnetic Anomaly Grid compiled from satellite, airborne, and marine magnetic measurements, Geochem. Geophys. Geosyst., 10, Q08005, doi:10.1029/2009GC002471.
Shume, E. B., E. R. Paula,
Equatorial zonal electric fields inferred from a 3D electrostatic potential model and ground-based magnetic field measurements
Journal of Geophysical Research, 114, A06305, doi:10.1029/2009JA014158, 2009
Maus, S.,
Earth Magnetic Anomaly Grid (EMAG2) released, Eos, Vol. 90, No. 28, p. 239, 14 July 2009
Maus, S., Silva, S., and Hulot, G., Reply to Comment on "Can core-surface flow models be used to improve the forecast of the Earth's main magnetic field?", Journal of Geophysical Research, 114, B04105, doi:10.1029/2008JB006242, 2009
Manoj, C.,
Maus, S.,
On the applicability of the frozen flux assumption in core flow modeling,
Geophysical Journal International,175, 853-856, 10.1111/j.1365-246X.2008.03972.x, 2008
Maus, S., Fairhead, J. D., Mogren, S., Bournas, N.,
EMAG3: A 3-arc-minute resolution global magnetic anomaly grid compiled from satellite, airborne and marine magnetic data,
SEG Expanded Abstracts 27, 764, 10.1190/1.3063758, 2008
(PDF)
Maus, S., and Silva, L., and Hulot, G.
Can core-surface flow models be used to improve the forecast of the Earth's main magnetic field?
Journal of Geophysical Research, 113, B08102, doi:10.1029/2007JB005199, 2008
Maus, S., F. Yin, H. Lühr, C. Manoj, M Rother, J. Rauberg, I. Michaelis, C. Stolle, and R. D. Müller (2008), Resolution of direction of oceanic magnetic lineations by the sixth-generation lithospheric magnetic field model from CHAMP satellite magnetic measurements, Geochem. Geophys. Geosyst., 9, Q07021, doi:10.1029/2008GC001949.
H. Lühr, M. Rother, K. Häusler, P. Alken and S. Maus,
The influence of non-migrating tides on the longitudinal variation of the equatorial electrojet,
Journal of Geophysical Research, 113, A08313, doi:10.1029/2008JA013064, 2008
Maus, S.,
The geomagnetic power spectrum,
Geophys. J.
Int., 174, 135-142, doi: 10.1111/j.1365-246X.2008.03820.x, 2008
Alken, P., S. Maus, J. Emmert and
D. P. Drob, "Improved horizontal wind model
HWM07 enables estimation of equatorial ionospheric electric fields from
satellite magnetic measurements", Geophys.
Res. Lett., 35, doi:10.1029/2008GL033580, 2008.
C. Stolle, C.
Manoj, H. Lühr, S. Maus, P. Alken,
Estimating the day time Equatorial Ionization Anomaly strength from electric field proxies
Journal of Geophysical Research, 113, A09310, doi:10.1029/2007JA012781, 2008
Maus, S., Alken, P. and Lühr, H.
Electric fields and zonal winds in the equatorial ionosphere inferred from CHAMP satellite magnetic measurements,
Geophysical Research Letters, 34, L23102, doi:10.1029/2007GL030859, 2007
Alken, P. and Maus, S.,
Spatio-temporal characterization of the equatorial electrojet from CHAMP, Ørsted, and SAC-C satellite magnetic measurements,
Journal of Geophysical Research, 112, A09305, doi:10.1029/2007JA012524, 2007
Maus, S., T. Sazonova, K. Hemant, J. D. Fairhead, and D. Ravat (2007), National Geophysical Data Center candidate for the World Digital Magnetic Anomaly Map, Geochem. Geophys. Geosyst., 8, Q06017, doi:10.1029/2007GC001643.
Korhonen, J. V., J. D. Fairhead, M. Hamoudi, K. Hemant, V. Lesur, M. Mandea, S. Maus, M. Purucker, D. Ravat, T. Sazonova & E. Thébault (2007), Magnetic anomaly map of the world, scale 1:50,000,000,
1st ed., Geol. Surv. of
Finland, Helsinki.
Hemant, K., Thébault, E., Mandea, M., Ravat, D., Maus, S.
Magnetic anomaly map of the world: merging satellite,
airborne, marine and ground-based magnetic data sets, Earth and Planetary
Science Letters, 260, 56-71, doi:10.1016/j.epsl.2007.05.040, 2007
Maus, S.
CHAMP magnetic mission, in: D. Gubbins and E. Herrero-Bervera (Eds.),
Encyclopedia of
geomagnetism and paleomagnetism, Springer,
Maus, S.
Ocean, electromagnetic effects, in: D. Gubbins and E. Herrero-Bervera (Eds.),
Encyclopedia of
geomagnetism and paleomagnetism, Springer,
Maus, S., H. Lühr, M. Rother, K. Hemant, G. Balasis, P. Ritter, and C. Stolle (2007), Fifth-generation lithospheric magnetic field model from CHAMP satellite measurements, Geochem. Geophys Geosyst., 8, Q05013, doi:10.1029/2006GC001521.
Lühr, H. and Maus, S.,
Direct observation of the F region dynamo currents and the spatial structure of the EEJ by CHAMP,
Geophys. Res. Lett., 33, L24102, doi:10.1029/2006GL028374, 2006
Longitudinal variation of the dayside E-region electric fields caused by atmospheric tides,
Geophysical Res. Lett., 33, L21105, doi:10.1029/2006GL027465, 2006
Maus, S., G. Hulot, G. Egbert, and T. Sabaka,
Report on the Workshop “Global models and data assimilation strategies”,
5 May 2006 at the 1st Swarm International Science Meeting,
Proceedings of the First Swarm International Science
Meeting 3-5 May 2006,
Manoj, C., H.
Lühr, S. Maus, and N. Nagarajan,
Evidence for short spatial correlation lengths of the noon-time equatorial electrojet - inferred from a comparison of satellite and ground magnetic data,
J. Geophys. Res., 111,
A11312, doi:10.1029/2006JA011855.
Lesur, V. and Maus, S.,
A global lithospheric magnetic field model with reduced
noise level in the
Geophysical Res. Lett., 33, L13304, doi:10.1029/2006GL025826, 2006
Maus, S., M. Rother, C. Stolle, W. Mai, S. Choi, H. Lühr, D. Cooke, and C. Roth,
Third generation of the Potsdam Magnetic Model of the Earth (POMME), Geochem. Geophys. Geosyst., 7, Q07008, doi:10.1029/2006GC001269, 2006
Olsen, N., Haagmans, R., Sabaka, T. J., Kuvshinov, A., Maus, S., Purucker, M., Rother, M., Lesur, V., and Mandea, M.
The Swarm End-To-End mission simulator study:
Separation of the various contributions to Earth’s magnetic field using
synthetic data
Swarm special
issue of Earth Planets and Space, Vol. 58 (No. 4), pp. 359-370, 2006
Maus, S., Lühr,
H., and Purucker, M. E.
Simulation of the
high-degree lithospheric field recovery for the Swarm constellation of
satellites
Swarm special issue of Earth Planets and Space, Vol. 58 (No. 4), pp. 397-407, 2006
Manoj, C., Kuvshinov, A., Maus, S. and Lühr, H.
Ocean circulation generated magnetic signals,
Swarm special
issue of Earth Planets and Space, Vol. 58 (No. 4), pp. 429-437, 2006
Maus, S. and H. Lühr,
A gravity driven electric current in the Earth's ionosphere identified in CHAMP satellite magnetic measurements,
Geophys. Res. Letts., 33, L02812, doi:10.1029/2005GL024436,
2006
Maus, S., Rother, M., Hemant, K., Stolle, C., Lühr, H., Kuvshinov, A., and Olsen, N.
Earth’s lithospheric
magnetic field determined to spherical harmonic degree 90 from CHAMP satellite
measurements
Geophys. J. Int.,
164, 319–330, doi:
10.1111/j.1365-246X.2005.02833.x, 2006
(PDF)
Vennerstrom S.,
E. Friis-Christensen, H. Lühr, T. Moretto, N. Olsen, C. Manoj, P. Ritter, L.
Rastätter, A. Kuvshinov, and S. Maus,
The Impact of Combined Magnetic and Electric Field Analysis and of Ocean
Circulation Effects on Swarm
European Space Agency, SWSC/DSRI/MIS/TN/0001(2), 2005
Nils Olsen and the Swarm End-to-End Consortium,
Swarm End-to-End
European Space Agency, SWE2E/DSRI/MIS/TN/0003 (2), 2005
Macmillan, S.,
Maus, S.,
International Geomagnetic Reference Field - the tenth generation
Earth Planets and Space, 57, 1135–1140, 2005
Maus, S.,
NGDC/GFZ candidate models for the 10th generation of IGRF
Earth Planets and Space, 57, 1151–1156, 2005
Maus, S., Macmillan, S., Lowes, F., and Bondar, T.,
Evaluation of candidate geomagnetic field models for the 10th generation of IGRF
Earth Planets and Space, 57, 1173–1181, 2005
Hemant, K. and S. Maus
Geological modeling
of the new CHAMP magnetic anomaly maps using a Geographical Information System
(GIS) technique,
J. Geophys. Res. B, 110, B12103, doi:10.1029/2005JB003837, 2005
Maus, S., Macmillan, S., Chernova,
T., Choi, S., Dater, D., Golovkov,
V., Lesur, V., Lowes, F., Lühr, H., Mai, W.,
The 10th-Generation
International Geomagnetic Reference Field,
Physics of the
Earth and Planetary Interiors, 151, 320-322,
2005
Maus, S. & Lühr, H.
Signature of the quiet-time magnetospheric magnetic field and its
electromagnetic induction in the rotating Earth
Geophys. J. Int., 162, 755-763, doi: 10.1111/j.1365-246X.2005.02691.x, 2005
Maus, S., Macmillan, S., Chernova,
T., Choi, S., Dater, D., Golovkov,
V., Lesur, V., Lowes, F., Lühr, H., Mai, W.,
The 10th-Generation
International Geomagnetic Reference Field,
Geophys. J. Int. 161, 561–565 doi:
10.1111/j.1365-246X.2005.02641.x, 2005
Maus, S., Macmillan, S.,
10th Generation International Geomagnetic Reference Field
Eos Trans. AGU, Vol. 86, No. 16, 159, 2005
Hemant, K., and Maus, S.
Why no
anomaly is visible over most of the continent-ocean boundary in the global
crustal magnetic field
Physics of the Earth and Planetary Interiors, 149, 321–333, 2005.
Balasis, G., Maus, S., Lühr, H., Rother, M.
Wavelet analysis of CHAMP flux gate magnetometer data,
in CHAMP Mission Results II, Springer Berlin, 347-352, 2005
Maus, S., Lühr, H., Balasis, G., Rother, M., Mandea, M.
Introducing POMME, the
in CHAMP Mission Results II, Springer
(PDF)
Hemant, K., Maus, S., Haak, V.
Interpretation of CHAMP crustal field anomaly maps using a Geographical
Information System (GIS) technique,
in CHAMP Mission Results II, Springer Berlin, 249-254, 2005
McLean, S., S. Macmillan, S. Maus, V. Lesur, A.Thomson, and D. Dater,
The US/UK World Magnetic Model for 2005-2010,
NOAA Technical Report NESDIS/NGDC-1, December 2004.
Maus, S.; Kuvshinov, A.
Ocean tidal signals in observatory and satellite magnetic measurements
Geophys. Res. Lett.,
Vol. 31, No. 15, L15313,
10.1029/2004GL020090, 2004
(PDF)
Balasis, G.; Egbert, G.; Maus, S,
Local time effects in satellite estimates of electromagnetic induction transfer
functions
Geophys. Res. Lett.,
Vol. 31, No. 16, L16610,10.1029/2004GL020147,
2004
(PDF)
Maus, S., Macmillan, S. and other members of the
IAGA Working Group V-MOD on Geomagnetic Field Modeling.
Eos Trans. AGU, Vol. 85, No. 37, 350, 2004
Maus, S.; Weidelt, P.
Separating the magnetospheric disturbance magnetic field into external and
transient internal contributions using a 1D conductivity model of the Earth
Geophys. Res. Lett., Vol. 31, No. 12, L12614, 10.1029/2004GL020232
(PDF)
Ritter, P., Lühr, H., Viljanen,
A., and Maus, S.
High-latitude ionospheric currents during very quiet times: their
characteristics and predictability,
Annales
Geophysicae, Vol. 22, pp 2001-2014,
(PDF)
Lühr, H.; Maus, S.; Rother, M
Noon-time equatorial electrojet: Its spatial features as determined by the
CHAMP satellite
J. Geophys. Res., 109, A01306,
doi:10.1029/2002JA009656, 2004.
(PDF )
Lühr, H.; Maus,
S.
Unsichtbar und einflussreich - der Geodynamo
Helmholtz-Gemeinschaft Deutscher Forschungszentren, Jahresheft 2004,
42-45, 2004.
(PDF )
Macmillan, S., S. Maus, T. Bondar,
A. Chambodut, V. Golovkov,
R. Holme, B. Langlais, V. Lesur, F. Lowes, H. Lühr, W. Mai, M. Mandea,
N. Olsen, M. Rother, T. Sabaka,
A. Thomson, I. Wardinski,
Ninth Generation International Geomagnetic Reference Field Released
Eos Trans. AGU, (46), 503, 10.1029/2003EO460004, 2003.
Macmillan, S., S. Maus, T. Bondar,
A. Chambodut, V. Golovkov,
R. Holme, B. Langlais, V. Lesur, F. Lowes, H. Lühr, W. Mai, M. Mandea,
N. Olsen, M. Rother, T. Sabaka,
A. Thomson, I. Wardinski,
Ihe 9th-Generation International Geomagnetic Reference
Field
Geophysical Journal International, 155, 3, 1051-1056, 2003
Lühr H., M. Rother, S. Maus, W. Mai, D. Cooke;
The diamagnetic effect of the equatorial Appleton anomaly: Its characteristics
and impact on geomagnetic field modeling
Geophys. Res. Lett.,
30 (17), 1906, doi:10.1029/2003GL017407, 2003.
(PDF)
Tyler, R., Maus, S., Lühr, H.
Satellite observations of magnetic fields due to ocean tidal flow
Science, vol. 299, 239-241, 2003.
(PDF)
Fairhead, J. D. & Maus, S.
CHAMP satellite and terrestrial magnetic data help define the tectonic model
for South America and resolve the lingering problem of the pre break-up fit of
the South Atlantic Ocean
The Leading Edge, 779-783, 2003.
Maus, S. & Haak, V.
Magnetic field annihilators: invisible magnetisation
at the magnetic equator
Geophys. J. Int., 155, 509-513, 2003
( PDF )
Purucker, M., Sabaka,
T., Olsen, N., and Maus, S..
How have Oersted, CHAMP, and SAC-C improved our
knowledge of the oceanic regions?
OIST-4 proceedings, DMI Scientific Report 03-09, 89-94, 2003.
(PDF)
Hemant, K. and Maus, S.,
Geological implications of continental magnetic anomalies derived from new CHAMP satellite data,
73rd Ann. Internat. Mtg.: Soc. of Expl. Geophys., 620-627.,
2003.
Haak, V., Maus,
S., Korte, M., and Lühr, H.,
Das Erdmagnetfeld - Beobachtung und Überwachung,
Physik Unserer
Zeit, Vol. 34, No. 5,
218-224, 2003.
(PDF)
Hemant, K., & Maus, S.
A Comparison of Global Lithospheric Field Models Derived from Satellite
Magnetic Data
in CHAMP
(PDF)
Maus, S., Hemant, K., Rother,
M., Lühr, H.
Mapping the Lithospheric Magnetic Field from CHAMP Scalar and Vector Magnetic
Data
in CHAMP Mission Results I, Springer Berlin, 269-274, 2002.
(PDF)
Maus, S., Rother, M., Holme,
R., Lühr, H., Olsen, N. & Haak, V.
First scalar magnetic anomaly map from CHAMP satellite data indicates weak
lithospheric field
Geophys. Res. Lett., vol. 29, no. 14, 10.1029/2001GL013685, 2002.
( PDF )
Maus, S., Rother,
M., Holme, R., Lühr, H., Olsen, N. & Haak, V.
Kartierung des Magnetfeldes der Lithosphäre mit CHAMP
Zweijahresbericht 2000/2001, GeoForschungsZentrum Potsdam, 15-24,
2002.
( PDF )
Lühr, H.; Maus, S.; Rother, M.;
Cooke, D.
First in-situ observation of night-time F region currents with the CHAMP
satellite
Geophys. Res. Lett.,
vol. 29, 10.1029/2001GL013845, 2002.
( PDF )
Maus, S. & Haak, V.
Is the long wavelength crustal magnetic field dominated by induced or by
remanent magnetisation? J. Ind. Geophys.
( PDF )
Maus, S.
New statistical methods in gravity and magnetics,
Habilitation thesis,
( PDF )
Maus, S.,
Sengpiel, K.P. & Roettger, B.
Magnetic variogram depth: tests on synthetic
and real data,
SEG 70th Ann. Internat. Mtg., Expanded Abstracts, 2000
(PDF)
Sengpiel, K.-P., Maus, S., Röttger, B.,
Calculated configuration and relative magnetisation of the basement rocks in the Kuiseb Dune helicopter survey area. German-Nambian Groundwater Exploration Project, Follow-up Report
Vol. 3; BGR Archiv-Nr. 117 600,
Maus, S.,
Is there an observable lack of reciprocity in PKP(DF) travel times?
Geophys. J. Int.., 143, 274-277, 2000.
( PDF )
Maus, S., Sengpiel, K.P., Roettger, B., Siemon, B., & Tordiffe, E.A.W.,
Variogram analysis of helicopter magnetic data to
identify paleochannels of the Omaruru
River, Namibia,
Geophysics, 64, 785-794, 1999.
(PDF )
Maus, S.,
Variogram analysis of magnetic and gravity data,
Geophysics, 64, 776-784, 1999.
(PDF )
Green, C.M., Fairhead, J.D., &
Maus, S., Satellite derived gravity: Where we are and what's next,
The Leading Edge, 17, 77-79, 1998.
(PDF )
Maus, S. , Fairhead, J.D., &
Green, C.M.,
Improved ocean geoid resolution from retracked ERS-1 satellite altimeter waveforms,
Geophys. J. Int., 134, 243-253, 1998.
Maus, S., Gordon, D., & Fairhead,
J.D.,
Curie temperature depth estimation using a self-similar magnetisation
model,
Geophys. J. Int., 129, 163-168, 1997.
Maus, S., Sengpiel, K.P., & Tordiffe, E.A.W.,
Variogram analysis of magnetic data to identify paleochannels of the
SEG 66th Ann. Internat. Mtg., Expanded Abstracts,
2, 1381-1383, 1996.
Maus, S.,
Scaling statistical analysis of magnetic and gravity data,
SEG 66th Ann. Internat. Mtg., Expanded Abstracts,
2, 1419-1422, 1996.
Maus, S., & Dimri, V.P.,
Depth estimation from the scaling power spectrum of potential fields?,
Geophys. J. Int., 124, 113-120, 1996.
Maus, S., & Dimri, V.P.,
Basin depth estimation using scaling properties of potential fields,
J. Assoc. Expl. Geophys.,
16, 131-139, 1995.
Maus, S., & Dimri, V.P.,
Potential field power spectrum inversion for scaling geology,
J. Geophys. Res., 100, B7, 12605-12616, 1995.
Maus, S.,
Potential field power spectrum inversion for scaling geology,
PhD-Thesis,
Maus, S., & Dimri, V.P.,
Scaling properties of potential fields due to scaling sources,
Geophys. Res. Lett.,
21, 891-894, 1994.
Maus, S., Pohl, J., Soffel, H.,
& Saradeth, S.,
Interpretation of an aerogeophysical survey (gamma
ray spectrometry, electromagnetics and magnetics) in the KTB area,
KTB-Report, 93-2, 317-318, 1993.