
According to the scientists of ARIES, the observations obtained will enable a detailed investigation of Pluto’s atmosphere as the initial processed occultation light curves (stellar occultation occurs when the light from a star is blocked by an intervening body (such as a planet, moon, ring, or asteroid) from reaching an observer) from the present observation are of the good signal-to-noise ratio.
Visual scrutiny of the observed occultation light curves clearly revealed signatures of Pluto’s atmosphere as smoothly changing ingress and egress slopes. These detections will be of paramount importance to measure Pluto’s atmospheric pressure in 2020.

The event was successfully recorded in the H-band using TIFR Infrared Camera (TIRCAM2) mounted on the 3.6m Devasthal Optical Telescope, while the optical light curve in the I-band observed with the 1.3m Devasthal Fast Optical Telescope. Attempts with the Himalayan Chandra Telescope at Hanle were not successful due to thick cloud coverage.
Stellar occultations by Pluto observed between 1988 and 2016 showed that Pluto’s atmospheric pressure increased by a spectacular factor of three, due to seasonal effects. The sublimation by solar rays of a vast nitrogen glacier (SpunikPlanitia) on Pluto expanded this atmosphere for nearly thirty years. Current climatic models predict that this expansion should now stop, leading to a gradual decline of Pluto’s atmosphere that could be tested with this observation. This observation is particularly important since occultations by Pluto are getting rarer, as the dwarf planet now moves away from the Milky Way, as seen from Earth.
For more details, Dr. Saurabh (ARIES) (saurabh[at]aries[dot]res[dot]in), Prof. N M Ashok (PRL) (ashoknagarhalli[at]gmail[dot]com), Prof. AnandmayeeTej (IIST) (anandmayee[dot]tej[at]gmail[dot]com) can be contacted.