Technische Universität Braunschweig
His scientific interests lie mostly in Geophysics, Ionosphere, Magnetosphere, Magnetopause and Solar wind. As part of his studies on Geophysics, H. Lühr frequently links adjacent subjects like Interplanetary magnetic field. The various areas that he examines in his Ionosphere study include Earth's magnetic field, Latitude and Substorm.
Much of his study explores Magnetosphere relationship to Computational physics. Within one scientific family, H. Lühr focuses on topics pertaining to Atmospheric sciences under Magnetopause, and may sometimes address concerns connected to Dipole model of the Earth's magnetic field. In his study, which falls under the umbrella issue of Solar wind, Magnetosheath, Bow shocks in astrophysics and Shock wave is strongly linked to Astrophysics.
H. Lühr mainly investigates Geophysics, Ionosphere, Magnetosphere, Substorm and Solar wind. H. Lühr has researched Geophysics in several fields, including Magnetopause, Convection, Latitude, Interplanetary magnetic field and Earth's magnetic field. H. Lühr interconnects Vortex and Noon in the investigation of issues within Ionosphere.
Optics is closely connected to Computational physics in his research, which is encompassed under the umbrella topic of Magnetosphere. His work carried out in the field of Substorm brings together such families of science as Geodesy, Electrojet, Magnetometer, Plasma sheet and Expansion phase. His studies deal with areas such as Plasma oscillation and Waves in plasmas as well as Solar wind.
His primary areas of investigation include Geophysics, Ionosphere, Earth's magnetic field, Latitude and Computational physics. His study in Geophysics is interdisciplinary in nature, drawing from both Geomagnetic storm and Magnetosphere. In his study, Vortex and Convection is inextricably linked to Solar wind, which falls within the broad field of Magnetosphere.
His F region and Incoherent scatter study in the realm of Ionosphere interacts with subjects such as Excitation. As part of the same scientific family, he usually focuses on Latitude, concentrating on Interplanetary magnetic field and intersecting with Atmospheric sciences and Astrophysics. His Computational physics study incorporates themes from Electron temperature, Magnetohydrodynamics and Polarization.
Geophysics, Magnetosphere, Earth's magnetic field, Ionosphere and Equator are his primary areas of study. His Geophysics research incorporates elements of Solar wind and Substorm. His Solar wind research is multidisciplinary, incorporating elements of Vortex and Convection.
His research integrates issues of Geomagnetic latitude and Ionospheric dynamo region in his study of Substorm. Polar is intertwined with Terminator, Noon, Latitude and Local time in his study.
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Bursty Bulk Flows in the Inner Central Plasma Sheet
V. Angelopoulos;W. Baumjohann;C. F. Kennel;F. V. Coroniti.
Journal of Geophysical Research (1992)
THE CLUSTER MAGNETIC FIELD INVESTIGATION
A. Balogh;M. W. Dunlop;S. W. H. Cowley;D. J. Southwood.
Space Science Reviews (1997)
The magnetopause for large magnetic shear: AMPTE/IRM observations
G. Paschmann;I. Papamastorakis;W. Baumjohann;N. Sckopke.
Journal of Geophysical Research (1986)
The magnetosheath region adjacent to the dayside magnetopause: AMPTE/IRM observations
T. D. Phan;G. Paschmann;W. Baumjohann;N. Sckopke.
Journal of Geophysical Research (1994)
Direct penetration of the polar electric field to the equator during a DP 2 event as detected by the auroral and equatorial magnetometer chains and the EISCAT radar
T. Kikuchi;H. Lühr;T. Kitamura;O. Saka.
Journal of Geophysical Research (1996)
High-speed ion flow, substorm current wedge, and multiple Pi 2 pulsations
K. Shiokawa;W. Baumjohann;G. Haerendel;G. Paschmann.
Journal of Geophysical Research (1998)
Swarm An Earth Observation Mission investigating Geospace
Eigil Friis-Christensen;H. Lühr;D. Knudsen;R. Haagmans.
Advances in Space Research (2008)
Ion thermalization in quasi-perpendicular shocks involving reflected ions
N. Sckopke;G. Paschmann;A. L. Brinca;C. W. Carlson.
Journal of Geophysical Research (1990)
Penetration of auroral electric fields to the equator during a substorm
T. Kikuchi;H. Lühr;K. Schlegel;H. Tachihara.
Journal of Geophysical Research (2000)
Structure of the Dayside Magnetopause for Low Magnetic Shear
G. Paschmann;W. Baumjohann;N. Sckopke;T. D. Phan.
Journal of Geophysical Research (1993)
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