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Signals in Optical Band can be Used as Probe to Detect Atmosphere Escape of Hot-Jupiters
Author: | Update time:2021-02-09           | Print | Close | Text Size: A A A

YAN Dongdong, GUO Jianheng and XING Lei from Yunnan Observatories of the Chinese Academy of Sciences, and their co-author HUANG ChenLiang from University of Arizona deduced that there is an expanding and escaping thermal neutral hydrogen atmosphere around hot-Jupiter WASP-121b by simulating the optical transmission spectrum (Hα) of this exoplanet. The results were recently published in The Astrophysical Journal Letters.

It was found that the cooler hydrogen atoms in the atmosphere of a hot Jupiter close to its host star can escape in a dramatic fashion by analysing the observation signals in the far ultraviolet wavelength passband. This escape is called the hydrodynamic escape. Through this mechanism, planetary atmospheres lose massive amounts of material, which has a serious impact on planetary evolution.

A small number of hot hydrogen atoms are present in the planet's atmosphere. In recent years, weak absorption signals (e.g., Hα transmission spectra of hydrogen) have been successfully detected when hot hydrogen atoms in the planetary atmosphere shade the host star. However, there has been a lack of explanation relating the absorption signals generated by these hotter hydrogen atoms to atmospheric escape.

Their team developed hydrodynamic escape atmosphere model and the radiation transfer model before, namely, the velocity, temperature and density of the atmosphere were obtained by solving the hydrodynamic fluid equation, and then the absorption of the planetary atmosphere to the stellar light was calculated frequency by frequency and point by point. Based on the models, researchers calculated the populations of hot and cold hydrogen atoms and then simulated the optical band (Hα) transmission spectrum observations of hot Jupiter WASP-121b at different observation times.

Their work suggests that there is a huge amount of escaping neutral hydrogen gas around the planet, which could lose up to ten trillion tons of matter a year. The hot hydrogen atoms in the material ejected by the planets can travel faster than the speed of sound, causing absorption at optical wavelengths. It also indicated that the signals of hydrodynamic escape from the planetary atmosphere can be detected by ground-based telescopes. Their findings show that the signals in the optical band can be used as a probe to detect atmosphere escape.

The researchers further found that the changes in the absorption level of the planetary atmosphere at different times may reflect the different activity characteristics of the host star, with the stronger activity level of the star leading to the deeper absorption of the planetary atmosphere.

The study also helps to better understand the influence of host star activity on planetary atmosphere escape.


YAN Dongdong, Yunnan Observatories, CAS

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