The Solar Conjunction Phase took place during the data collection period.
The Emirates Mars Mission (EMM) has shared new observations conducted by the Hope Probe about the Martian atmosphere, in its third batch of scientific data collected by the probes instruments during its mission in Martian orbit, between September 1 and November 30 last year.
The data from the third batch included more than 57 gigabytes of information, images, and data about the Red Planets atmosphere, which were captured by the probes scientific instruments, making the total data released by the Hope Probe equivalent to 827.7 gigabytes. Within the data, a special high cadence imagery observation took place using the Emirates Exploration Imager (EXI) camera. The observation was designed to attempt to capture motion and evolution in the atmosphere, where it observed high-density clouds on 22 November 2021.
During the period in which the third batch of data was collected, the Mars Solar Conjunction phase took place, which paused communication, science observations and data collection. This was due to the blocked line-of-sight communication between Earth and missions around Mars, with Earth and Mars being on the opposite sides of the Sun. During this phase, which happens almost every two years, the Sun emits hot, ionised gas, which interfered with radio signals when communicating with the Hope Probe. As soon as the phase was over, Mars orbital motion around the Sun allowed the Hope Probe to regain its communication.
The third batch of information and data was shared with the scientific community and astronomy enthusiasts from around the world via the data centre on the projects website. The Emirates Mars Mission releases data every three months after the data captured by probes instruments is catalogued and analysed by the projects science team.
Eng. Omran Sharaf, Project Director of Emirates Mars Mission, said: Publishing the data and images captured by the Hope Probe and sharing it with the global scientific community reflects the UAEs commitment to supporting scientific progress in the field of space and related sciences. Sharing this data about the Red Planets atmosphere and climate with scientists, engineers, researchers, students, and other beneficiaries will contribute to supporting scientific research and studies that seek to find out more about Mars and its climate shifts and interactions.
Sharaf added: “The Probe is continuing its planned mission to orbit around Mars perfectly. The efficiency and high quality of the Probe, manufactured by esteemed Emirati skills and international expertise, is the culmination of years of advances and progress in manufacturing satellites, in accordance with world-class engineering and industrial standards. The Probe today is offering its remarkable scientific capabilities to the community of scientists and researchers studying the Red Planet, thereby consolidating the UAEs prestigious position in the space field.”
Hessa Al Matroushi, Emirates Mars Mission Science Lead, stated: It is very exciting to check the most recent coverage of the Mars Hope Probe. Every data downlink we receive provides us with additional insights on Mars and its atmosphere. This supports the missions objectives of providing useful scientific data, as well as enhancing our national capabilities, and fostering global collaboration.
The Hope Probes orbit, which is between 20,000 and 43,000 km with a 25-degree incline towards Mars, gives it the unique ability to complete one orbit around the planet every 55 hours, capturing comprehensive data every 9 days. The Probe has released the first images and data of its kind of the hidden auroras in Mars atmosphere during night, as well as unprecedented data about the behaviour of gases and chemical interactions in the planets atmosphere. The Probe also made other discoveries that have altered the previous conceptions about the distribution of ultraviolet light emitted by Mars upper atmosphere.
The Hope Probe is studying the current state of Mars atmosphere and weather and the reason for the escape of hydrogen and oxygen from its upper atmosphere. In addition, it is studying the relation between the higher and lower atmospheres of Mars and various other phenomena like dust storms, weather variations, and atmosphere dynamics. The Probe weighs around 1,350 KG, approximately the weight of a small SUV. It was designed and developed by engineers at Mohammed Bin Rashid Space Centre (MBRSC), in cooperation with academic partners including, the Laboratory for Atmospheric and Space Physics (LASP) at the University of Colorado Boulder, the University of Arizona, and the University of California, Berkeley.