Photoevaporation

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Photoevaporation occurring to a protoplanetary disk due to the presence of a nearby O-type star.
Photoevaporation occurring to a protoplanetary disk due to the presence of a nearby O-type star.

Photoevaporation denotes the process when a planet is stripped of its atmosphere (or parts of the atmosphere) due to high energy photons and other electromagnetic radiation. If a photon interacts with an atmospheric molecule, the molecule is accelerated and its temperature increased. If sufficient energy is provided, the molecule or atom may reach the escape velocity of the planet and "evaporate" into space. The lower the mass number of the gas, the higher the velocity obtained by interaction with a photon. Thus hydrogen is the gas which is most prone to photoevaporation.

[edit] Photoevaporation with protoplanetary disks

Protoplanetary disks can be dispersed by stellar wind and heating due to incident electromagnetic radiation. The radiation interacts with matter and thus accelerates it outwards. This effect is only noticeable when there is sufficient radiation strength, such as coming from nearby O and B type stars or when the central protostar commences nuclear fusion.

The disk is composed of gas and dust. The gas, consisting mostly of light elements such as hydrogen and helium, is mainly affected by the effect, causing the ratio between gas and dust to increase.

Because of this effect, the presence of massive stars in a star forming region is thought to have a great effect on planet formation from the disk around a YSO, though it is not yet clear if this effect decelerates or accelerates it.

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