Astronomy and astrophysics
Activity in Distant Comets - Ice Condensation Temperatures in the Early Solar System
by
→
Europe/Stockholm
FA31
FA31
Description
Long-period and dynamically new comets (those making their first
passage through the inner solar system) have long been known to be
active (exhibiting dust tails) in the distant solar system, beyond
the distance where there is sufficient energy for water ice
sublimation. This talk will present a historical overview of active
comets in the context of what we are learning from space missions,
laboratory ice experiments, thermal modeling and observations using
large ground-based and Earth-orbital facilities. We have conducted
experiments on gas-laden amorphous ice samples and show that
considerable gas omission occurs when the ice is heated below the
temperature of the amorphous-crystalline ice phase transition. We
propose that annealing of amorphous water ice is the driver of
activity in comets as they first enter the inner Solar System.
These results are consistent with both historical observations of
distant comet activity and with the data presented here. The ice
annealing process can only release gases at temperatures above the
temperature at which the amorphous ices condensed. Thus, if
observations of the onset of activity in a dynamically new comet
are ever made, the distance at which this occurs would be a sensitive
indicator of the temperature at which the comet had formed. New
surveys such as Pan STARRS, may be able to detect these comets while
they are still inactive.