Simulating Pluto's Atmosphere with Hybrid Fluid/Kinetic Models

Abstract: Recent and planned spacecraft exploration of the planets and moons of our solar system have greatly increased interest in atmospheric escape. The Cassini spacecraft is currently improving our understanding of the upper atmosphere of Saturn's large moon Titan, in 2014 the Maven spacecraft will begin to orbit Mars to study its upper atmosphere and atmospheric loss, and in 2015 the New Horizons spacecraft will have a close flyby encounter with Pluto. My motivation has been to produce an accurate model of Pluto's … Show more

“…The tightly bound carbon nanotubes appear to remain metallic as well, as long as their geometry allows a metallic band topology. Another loophole in Peierls' theorem is a band structure with more than one band, where the Fermi momentum is not located at the half-way point of the Brillouin zone [15].…”

“…The Si(111)4 × 1-In surface has been studied both by angle-resolved photoemission [38] and by first principles band calculations [15]. It contains about a monolayer of In, corresponding to four atomic rows of In arranged in a honeycomb chain [15,37]. The corresponding four bands are observed in photoemission [38].…”

One-dimensional electronic states at surfaces

“…The tightly bound carbon nanotubes appear to remain metallic as well, as long as their geometry allows a metallic band topology. Another loophole in Peierls' theorem is a band structure with more than one band, where the Fermi momentum is not located at the half-way point of the Brillouin zone [15].…”

“…The Si(111)4 × 1-In surface has been studied both by angle-resolved photoemission [38] and by first principles band calculations [15]. It contains about a monolayer of In, corresponding to four atomic rows of In arranged in a honeycomb chain [15,37]. The corresponding four bands are observed in photoemission [38].…”

One-dimensional electronic states at surfaces