Areas of Activity#

Here you will find all fields of scholarship for this section.

• ab Initio Molecular Dynamics Go to

• acidification Go to

• active tectonics Go to

• aerosols Go to

• aerospace technology Go to

• agrophysics Go to

• Antarctic circumpolar current Go to

• a possible glacially-forced tectonic mechanism for late Neogene surface uplift and subsidence around the North Atlantic Go to

• applied geology Go to

• applied historical astronomy Go to

• applied historical astronomy Go to

• applied mathematics Go to

• archaeology Go to

• astrometry Go to

• astronomy & astrophysics Go to

• astronomy, astrophysics Go to

• astronomy Go to

• astronomy Go to

• astronomy Go to

• astronomy Go to

• astronomy, physics Go to

• astronomy & space research Go to

• astronomy & space research Go to

• astronomy & space research Go to

• astrophysics Go to

• astrophysics Go to

• astrophysics Go to

• astrophysics Go to

• astrophysics Go to

• astrophysics Go to

• astrophysics Go to

• atmoshperic science Go to

• atmosperic physics Go to

• atmosphere-ocean jets Go to

• atmosphere-ocean-planetary dynamics Go to

• atmospheric chemistry and its role in biogeochemical cycles and climate Go to

• atmospheric chemistry Go to

• atmospheric chemistry Go to

• atmospheric chemistry Go to

• atmospheric chemistry Go to

• atmospheric chemistry Go to

• atmospheric chemistry Go to

• atmospheric chemistry & physics Go to

• atmospheric dynamics Go to

• atmospheric & ocean dynamics Go to

• atmospheric & oceanic sciences Go to

• atmospheric physics Go to

• atmospheric physics Go to

• atmospheric physics Go to

• atmospheric physics Go to

• atmospheric physics Go to

• atmospheric & planetary sciences Go to

• atmospheric science Go to

• atmospheric science Go to

• atmospheric science Go to

• atmospheric sciences Go to

• atmospheric sciences Go to

• atmospheric sciences Go to

• atmospheric sciences Go to

• atmospheric & space sciences Go to

• binary X-ray sources - observations at La Silla, Chile, ESO Go to

• biofuels Go to

• biogeochemistry Go to

• biogeochemistry Go to

• biogeochemistry of oceans & atmosph Go to

• black holes Go to

• boundary layer meteorology Go to

• bowed-string dynamics Go to

• carbon cycle science Go to

• changes in ocean meridional overturning circulation Go to

• chemical geodynamics Go to

• chemistry of atmosphere Go to

• Chemistry of past atmosphere Go to

• chronology of meteorites and the formation of the solar system Go to

• climate change Go to

• climate change Go to

• climate & climate change Go to

• climate dynamics Go to

• climate dynamics Go to

• climate & environmental physics Go to

• climate geology Go to

• climate Go to

• climate modelling Go to

• climate projections Go to

• climate science Go to

• climate science Go to

• climate science Go to

• climatic change Go to

• climatic change Go to

• climatology Go to

• climatology Go to

• climatology Go to

• climatology Go to

• composition, architecture and evolution of the Earth by marine geophysical methods and geological data Go to

• computational astrophysics Go to

• computational simulation Go to

• computation of evolutionary tracks of single and binary stars Go to

• continental rift magmatism Go to

• core Go to

• coronal heating Go to

• cosmic ray physics Go to

• cosmochemistry Go to

• CO2 sequestration Go to

• critical phenomena in chaotic systems Go to

• deep Earth (core and inner core) Go to

• deep Ocean Hydrothermalism Go to

• deep sea drilling Go to

• desert science Go to

• development and evolution of ocean basins and continental margins Go to

• distance scale Go to

• double-diffusive phenomena Go to

• dynamical and complex systems theory Go to

• dynamic meteorology Go to

• dynamic meteorology Go to

• Dynamics of Extensional and Compressional Intraplate Deformation Go to

• early solar system timescales using extinct radionuclides Go to

• earth & atmospheric sciences Go to

• earth & cosmic science Go to

• earth & cosmic sciences Go to

• earth & cosmic sciences Go to

• earth & cosmic sciences Go to

• earth & marine sciences Go to

• earth & marine sciences Go to

• earth & marine sciences Go to

• earth & planetary sciences Go to

• earth & planetary sciences Go to

• earthquake prediction Go to

• earthquake prediction Go to

• earthquake preparedness Go to

• earthquake risk analysis in Ghana Go to

• earthquakes origin Go to

• earthquake source mechanism Go to

• Earth rotation and time Go to

• earth rotation Go to

• earth science Go to

• earth science Go to

• earth science Go to

• earth sciences Go to

• earth sciences Go to

• earth sciences Go to

• earth's rotation effects on the lithosphere Go to

• Earth tides Go to

• effects of mountains on atmospheric flow Go to

• elastic wave propagation Go to

• energy storage in aquifers Go to

• engeering seismology Go to

• environmental fluid mechanics Go to

• environmental geology Go to

• environmental science Go to

• estimation theory Go to

• experimental geosciences Go to

• explosion seismic refraction experiments to determine crustal structure in Britain and the East African Rift Valley in Kenya Go to

• extra-solar planets Go to

• figure of the Earth and its gravitational field Go to

• Fluid and melt inclusions in minerals and rocks Go to

• Fluid Dynamics Go to

• fluid dynamics Go to

• formation and the demise of large scale geological structures Go to

• fractals in sedimentary geology Go to

• galaxy Go to

• Gamma ray astronomy Go to

• gaz storage in aquifers Go to

• geochemistry Go to

• geochemistry Go to

• geochemistry Go to

• geodesy and geophysics, with specific interest in Earth/Mars/Mercury rotation/libration and interior modeling Go to

• geodesy as a part of geophysics Go to

• geodesy Go to

• geodesy Go to

• geodesy Go to

• geodetic boundary-value problems Go to

• geodynamic numerical modelling Go to

• geodynamics and ore deposit evolution across Europe (GEODE) Go to

• geodynamics, geophysics Go to

• Geodynamics Go to

• geodynamics Go to

• geodynamics Go to

• Geodynamics Go to

• geodynamics Go to

• Geodynamics Go to

• geo-engineering Go to

• geologic and hydrologic modelling Go to

• geology & geodynamics Go to

• geology Go to

• geology Go to

• geology Go to

• Geology Go to

• geology: North Mediterranean Ranges, West American Ranges (Andes, Sierra Madre), West Pacific Ranges (Japan, Taïwan, New Caledonia) Go to

• Geology of sedimentary mountain ranges Go to

• geomagnetism Go to

• geometry, kinematics and dynamics of tectonic plate boundaries Go to

• geomorphology Go to

• geophysical fluid dynamics Go to

• geophysical fluid dynamics Go to

• geophysics Go to

• geophysics Go to

• geophysics Go to

• geophysics Go to

• Geophysics Go to

• geophysics Go to

• geophysics Go to

• geophysics Go to

• geophysics Go to

• geophysics Go to

• geophysics & planetary physics Go to

• geosciences Go to

• glacial geology Go to

• glaciology Go to

• global change Go to

• global change Go to

• global climatology Go to

• global climatology Go to

• global climatology Go to

• global-scale atmospheric circulations Go to

• gravity studies of Mars/Venus/Mercury Go to

• gravity surveys in Southwest Greenland Go to

• gravity waves:numerical methods Go to

• greenhouse gases Go to

• habitat of life on the early earth Go to

• Heat Flow Go to

• high energy astrophysics Go to

• historical eclipses and earth's rotation Go to

• historical seismology Go to

• historical supernovae Go to

• history of East Asian celestial cartography Go to

• History of Geology Go to

• history of Halley's comet; chronology Go to

• hydrogeology Go to

• hydrology Go to

• Identification of pulsars as a new class of stars Go to

• igneous petrology Go to

• igneous petrology Go to

• industrial fluid mechanics Go to

• instrumental climate records Go to

• interaction sedimentation-tectonics Go to

• interior structure of the earth Go to

• internal geophysics Go to

• Internal gravity waves and their interaction with shear flows Go to

• interstellar gas dynamics Go to

• intraplate deformation Go to

• inverse problems of trace elements in magmatic series Go to

• isotope Geo- and Cosmochemistry Go to

• isotope geochemistry Go to

• isotope tracer studies on terrestrial and extraterrestrial materials Go to

• large igneous provinces Go to

• large-scale sea-ice ocean modelling, sea-ice thermodynamics and dynamics Go to

• large-scale turbulence Go to

• Lithology Go to

• lithosphere dynamics Go to

• lithospheric dynamics Go to

• lithospheric processes Go to

• long-term solar variability Go to

• lucidity principles Go to

• macroeconomics Go to

• magmatic ore deposits Go to

• magnetic instabilities Go to

• magnetohydrodynamics Go to

• magnetospheric physics Go to

• mantle Go to

• marine biology Go to

• Marine Geology Go to

• marine geology Go to

• marine geology Go to

• marine geophysical surveys across the Irish Sea, Celtic Sea and Southwest Approaches Go to

• marine geophysics Go to

• marine geosciences Go to

• marine paleoclimate research (Quaternary and Neogene) Go to

• marine science Go to

• marine science Go to

• marine science Go to

• mass loss and mass transfer in close binary systems Go to

• mathematical geodesy Go to

• Mathematical, numerical and statistical techniques in Geodesy Go to

• mathematical theory of climate Go to

• mathematics-music relations Go to

• mechanisms of plate tectonics Go to

• Metamorphic rocks Go to

• Meteoritics Go to

• meteorology and climate dynamics Go to

• meteorology Go to

• meteorology Go to

• meteorology Go to

• meteorology Go to

• meteorology Go to

• mineralogy, petrology Go to

• Mineral physics at high P and T Go to

• mineral physics Go to

• modelling climate variability and changes (past and future) in polar regions Go to

• modelling Go to

• modelling of the earth climate system, including paleoclimates: the Holocene, the ice ages, and the warm periods of the Cretaceous and Paleocene epochs Go to

• modelling the climate of the earth system Go to

• models for Algol systems Go to

• models for X-ray binaries Go to

• molecular biomarkers Go to

• monitoring and dynamics of ice caps using satellite techniques Go to

• monitoring environmental change Go to

• motions of star clusters and stellar associations Go to

• multiphase flows Go to

• musical acoustics Go to

• n-alkanes, steroids Go to

• natural disaster reduction Go to

• nuclear waste disposal Go to

• nucleosynthesis Go to

• numerical methods Go to

• observation of X-ray binaries Go to

• ocean and climate dynamics Go to

• ocean circulation and satellite altimetry Go to

• ocean cycle of trace metals and carbon Go to

• oceanic flows Go to

• ocean (Mid-America trench, Japan and Kourils Trench, Tonga-Kermadec Trench) Go to

• oceanography Go to

• oceanography Go to

• oceanography Go to

• oceanography Go to

• ocean storage of carbon dioxide Go to

• ocean tracers of continental aridity Go to

• optical detectors Go to

• origin and evolution of the solar system Go to

• origin of cosmic rays Go to

• origin of cosmic rays Go to

• orogenic volcanism Go to

• ozone and UV research Go to

• ozone Go to

• ozone layer Go to

• palaeoenvironmental proxies Go to

• paleoceanography Go to

• paleoceanography Go to

• paleoclimatology Go to

• paleoclimatology Go to

• paleoclimatology Go to

• paleoclimatology Go to

• Paleogeographic and Paleotectonic Reconstructions Go to

• paleomagnetism Go to

• paleomagnetism Go to

• particle acceleration Go to

• pattern recognition Go to

• Petrology and Geochemistry Go to

• petrology and geochemistry of mafic and ultramafic volcanic rocks, both modern and Archean Go to

• petrology Go to

• Petrology Go to

• petrology Go to

• Petrology Go to

• physical & applied geology Go to

• physical geodesy Go to

• physical oceanography Go to

• physical oceanography Go to

• physical properties of Active Galactic Nuclei and the growth of Super Massive Black Holes therein Go to

• physic of the earth Go to

• Physics Go to

• physics Go to

• physics of space plamas Go to

• physics of the earth Go to

• physics of the interstellar medium Go to

• physics of the oceans Go to

• planetary geophysics Go to

• planetary Nebulae physics Go to

• planetary sciences Go to

• plankton ecology Go to

• plant waxes Go to

• plasma astrophysics Go to

• Plate Tectonics and Basin Evolution Go to

• plate tectonics Go to

• plate tectonics Go to

• plate tectonics Go to

• Pleistocene swings in atmospheric carbon dioxide Go to

• predictability of critical transitions in complex systems Go to

• predictability of weather & climate Go to

• Quaternary sediments Go to

• quaternary stratigraphy Go to

• Radio astronomy Go to

• radiocarbon chronology Go to

• radiocarbon dating Go to

• radiogalaxies and their interaction with the environment Go to

• radiophysics Go to

• regional geology Go to

• relativistic geodesy Go to

• remote sensing and applications Go to

• Remote sounding of the sea surface state including the method of tsunami identification by radar backscatter Go to

• rock magnetic studies applied to geological problems Go to

• rock magnetism Go to

• Satellite based gravity field determination Go to

• science with Space Missions, in particular in the X-Ray band Go to

• sea level change Go to

• sedimentary basin evolution Go to

• sedimentary geology Go to

• sedimentology Go to

• sedimentology of reefs and carbonate platforms Go to

• seismicity and seismotectonics of the Mediterranean and of the Ibero-Maghrebian region Go to

• seismicity and structure of the Pyrenees Go to

• seismic microzonation of urban settlements and seismic hazard Go to

• seismic ray theory Go to

• seismic reflection survey techniques to explore deep into the Earth's crust and upper mantle as a basis for studying continental lithosphere dynamics (BIRPS, the European Geotraverse) Go to

• seismic risk Go to

• seismic waves Go to

• seismic waves in anisotropic media, seismic waves in inhomogeneous media, seismic waves in dissipative media, seismic waves in layered media Go to

• seismic waves in singular regions Go to

• seismology Go to

• seismology Go to

• seismology Go to

• socio-economic predictions Go to

• soil science Go to

• solar activity Go to

• solar evolution Go to

• solar physics Go to

• solar physics Go to

• solar tachocline dynamics Go to

• solid earth geophysics Go to

• solid earth geophysics Go to

• solid earth geophysics Go to

• solid earth science Go to

• space astrophysics Go to

• space geodesy Go to

• space physics Go to

• space physics Go to

• space plasma physics Go to

• space research Go to

• space research Go to

• space research Go to

• space weather Go to

• specialization in dep-water clastics, evaporites, indicators of paleoseismicity Go to

• stable isotopes of carbon and hydrogen Go to

• stable isotope stratigraphy Go to

• star formation Go to

• statistical climatology Go to

• Statistical climatology Go to

• statistical methods Go to

• statistics end estimation of the gravitational field Go to

• stochastically forced large-scale flows Go to

• stratigraphy Go to

• structural geology Go to

• structural geology Go to

• supernova remnants Go to

• sustainability engineering Go to

• synthetic seismograms Go to

• tectonic models Go to

• tectonics Go to

• tectonics Go to

• tectonics Go to

• tectonics & seismotectonics Go to

• Theoretical and experimental geophysical fluid dynamics sca surface waves generation and their spectra Go to

• theoretical geodesy Go to

• tracers of ocean nutrients and paleoproductivity Go to

• triterpenoids Go to

• Turbulence and its interaction with waves Go to

• urban air pollution Go to

• UV observations with Ultra Violet Explorer - simultaneous Go to

• valley winds: global atmospheric angular momentum Go to

• visual art and culture Go to

• volcanic propcesses Go to

• Volcanology Go to

• volcanology Go to

• volcano seismology Go to

• Wakes in stratified media Go to

• waste disposal Go to

• water resources management Go to

• water vapor in the upper troposphere and stratosphere Go to

• wave-mean interaction (interaction of waves and mean flows), illustrating one of the grand themes of physics, the dynamical organization of fluctuations) Go to

• wave-vortex interaction Go to

• X-ray sources Go to