Sriram Bhiravarasu is a postdoctoral fellow at the Lunar and Planetary Institute in Houston. He participated in the science planning process for Chandrayaan-2’s radar instrument.

After the phenomenal success of the Chandrayaan-1 orbiter, the Indian Space Research Organisation is gearing up for its second lunar mission, Chandrayaan-2, slated to be launched in January 2019. Developed entirely in India, this mission represents a number of technological firsts for the space agency: the heaviest interplanetary launch mass at about 3,890 kilograms (8,580 pounds), the first Indian soft landing, and the first-ever lunar south pole landing, to name a few. The mission aims to address some of the major scientific questions concerning the Moon by studying its topography, polar volatile deposits, mineralogy, elemental abundance, and exosphere.

Some of the orbiter instruments have significantly improved capabilities compared to their Chandrayaan-1 predecessors. The Imaging Infrared Spectrometer characterizes and maps the abundance of hydroxyl ions (OH-, broken from water molecules) and molecular water. The dual-frequency Synthetic Aperture Radar instrument enables us to look into permanently shadowed crater floors in polar regions and detect water ice. Operating in its passive radiometer mode, this instrument will be able to map lunar regolith thickness and electrical conductivity properties at a global scale. Chandra Atmospheric Composition Explorer 2 is a neutral mass spectrometer that will sample atoms in the tenuous exosphere over polar regions of the Moon, complementary to a similar experiment aboard NASA’s LADEE mission.