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Line 40: The reverse process of sublimation is [[deposition (phase transition)\|''deposition'']] (also called ''desublimation''), in which a substance passes directly from a gas to a solid phase, without passing through the liquid state.<ref name="DepositionDef">{{cite journal \|title=Controlling condensation and frost growth with chemical micropatterns \|first1=Jonathan B. \|last1=Boreyko \|first2=Ryan R. \|last2=Hansen \|first3=Kevin R. \|last3=Murphy \|first4=Saurabh \|last4=Nath \|first5=Scott T. \|last5=Retterer \|first6=C. Patrick \|last6=Collier \|journal=Scientific Reports \|year=2016 \|volume=6 \|pages=19131 \|doi=10.1038/srep19131 \|pmid=26796663 \|pmc=4726256 \|bibcode=2016NatSR...619131B}}</ref> Technically, all solids may sublime, though most sublime at extremely low rates ~~under usual conditions~~ that are hardly detectable under usual conditions. At [[standard conditions for temperature and pressure\|normal pressures]], most [[chemical compound]]s and [[chemical element\|elements]] possess three different states at different [[temperature]]s. In these cases, the transition from the [[solid]] to the [[gas]] state requires an intermediate liquid state. The pressure referred to is the ''[[partial pressure\|''partial]]'' ~~[[partial pressure\|~~pressure]] of the substance, not the ''total'' (e.g. atmospheric) pressure of the entire system. Thus, any solid can sublime if its [[vapour pressure]] is higher than the surrounding partial pressure of the same substance, and in some cases, ~~sublimes~~sublimation occurs at an appreciable rate (e.g. water ice just below 0 °C). For some substances, such as [[carbon]] and [[arsenic]], sublimation from solid state is much more achievable than [[evaporation]] from liquid state and it is difficult to obtain them as liquids. This is because the pressure of their [[triple point]] in its [[phase diagram]] (which corresponds to the lowest pressure at which the substance can exist as a liquid) is very high.

Sublimation (phase transition): Difference between revisions