Space Physics
In our daily environment, we encounter matter in three different states: solid, liquid, and gas. In space, a fourth state of matter exists: the plasma state. Plasma is like a gas, with individual particles moving freely under the influence of gravity and collisions. However, the particles in plasmas are charged and move primarily under the influence of electromagnetic forces; space plasmas are usually collisionless. Plasmas make up 99% of the material in the universe and plasma processes in near-Earth space can seriously affect certain modern technologies. So, it is important to understand the physical processes that occur in plasmas, particularly those processes that occur naturally in space plasmas.
Space plasma research at ÃÛÌÒ´«Ã½Æƽâ°æÏÂÔØ and focuses on space plasma within our solar system. The group focuses on numerical modeling of plasma, designing space missions, building instruments to measure plasma, and analyzing and interpreting plasma observations. CU space physicists are interested in: the physical processes that create the aurora, the origins and dynamics of the Van Allen radiation belts, the spatial and temporal evolution and origin of the solar wind, the interaction of the solar wind plasma with magnetic obstacles such as the magnetospheres of Earth and Mercury, the interaction of the solar wind with weakly or non-magnetic objects such as Mars and the Moon, as well as energy transport and conversion in space plasmas.
Space Physics Faculty
Martian Crustal Fields
Acceleration and Heating in the Outer Corona
Magnetic Reconnection, Turbulence, and Particle Acceleration