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Is Mars Express still active?

Mars Express: A Long-Lasting Mission to the Red Planet

Introduction

Mars Express is one of the European Space Agency’s (ESA) most successful and enduring missions. Launched on June 2, 2003, Mars Express has been orbiting the Red Planet for more than two decades, delivering groundbreaking scientific data and insights about Mars. Originally designed as a short-term mission of two Earth years (about one Martian year), Mars Express has far exceeded expectations and continues to operate as of 2024. The spacecraft has helped answer many key questions about Mars’ atmosphere, surface, and potential for past or present life.

Mission Overview

Mars Express was ESA’s first mission to another planet. It was named “Express” to highlight the relatively short time required to reach Mars—just under seven months. The mission consists of two main components: the Mars Express Orbiter and the Beagle 2 lander, although the latter was lost after deployment. Despite the Beagle 2’s failure, the orbiter has provided a wealth of data, transforming our understanding of Mars.

The primary scientific goals of Mars Express include:

  1. Imaging and Mapping: One of the key objectives of Mars Express is to produce high-resolution imagery and maps of the Martian surface. The spacecraft’s High-Resolution Stereo Camera (HRSC) has allowed scientists to create detailed topographic maps, uncovering features such as volcanoes, valleys, and ancient river beds.
  2. Atmosphere Studies: Mars Express is equipped with multiple instruments for studying the Martian atmosphere. Its infrared spectrometer, Planetary Fourier Spectrometer (PFS), and Ultraviolet and Infrared Atmospheric Spectrometer (SPICAM) help study the planet’s atmospheric composition, structure, and dynamics.
  3. Subsurface Exploration: One of the most exciting scientific contributions of Mars Express comes from the MARSIS (Mars Advanced Radar for Subsurface and Ionospheric Sounding) instrument. MARSIS is designed to probe beneath the surface of Mars, searching for evidence of water or ice. Its findings have confirmed the presence of significant amounts of subsurface water ice and even hinted at the existence of liquid water in underground reservoirs near Mars’ poles.
  4. Magnetosphere and Plasma Studies: Mars Express has also contributed to our understanding of the Martian magnetosphere, its interaction with solar wind, and how Mars lost most of its atmosphere over time.
  5. Mars’ Moons: In addition to studying Mars, Mars Express has also made significant observations of Phobos and Deimos, Mars’ two moons. In particular, it has mapped Phobos in high detail, leading to better estimates of its composition and structure.

Key Discoveries and Achievements

Over its two-decade-long mission, Mars Express has made numerous important discoveries:

  1. Detection of Methane: In 2004, Mars Express detected traces of methane in the Martian atmosphere, a finding that has fueled speculation about possible biological activity. Methane is a gas that can be produced by both geological and biological processes. Although the source of the methane remains unclear, the discovery has spurred further exploration to determine whether Mars could host microbial life.
  2. Liquid Water under the Surface: In 2018, Mars Express made one of its most significant discoveries—evidence of a large underground lake of liquid water beneath the southern ice cap. Using the MARSIS radar instrument, scientists detected a reflective surface suggesting the presence of salty liquid water, raising intriguing possibilities about habitability on Mars.
  3. Detailed Mapping of the Surface: Mars Express has provided incredibly detailed maps of Mars’ surface. The HRSC has taken 3D images, revealing new insights into the planet’s geological history, including evidence of volcanic activity, tectonic processes, and ancient river valleys. These findings have helped build a better understanding of how Mars evolved and whether it ever had conditions suitable for life.
  4. Climate History: Through its atmospheric studies, Mars Express has improved our understanding of Mars’ climate history. Its observations indicate that Mars was once much warmer and wetter than it is today, with lakes, rivers, and perhaps even oceans. This aligns with the discovery of minerals that form in the presence of water, reinforcing the idea that Mars had liquid water on its surface in the distant past.
  5. Mars’ Dynamic Poles: Mars Express has contributed to the study of Mars’ polar ice caps, revealing that they are composed of both water and carbon dioxide ice. The spacecraft has also studied seasonal changes in the polar regions, providing insights into how Mars’ climate varies over time.

Mission Extensions and Continued Operations

Mars Express was initially designed for a short mission, but its success has led to multiple extensions. In fact, as of 2024, the mission continues to deliver valuable data, and ESA has committed to extending operations as long as the spacecraft remains functional.

The spacecraft’s longevity can be attributed to several factors, including its robust design and regular updates to its software and operations. Over the years, mission controllers have had to overcome various challenges, such as power limitations, but they have successfully adapted the mission to ensure its continued productivity.

Technological Innovations

Mars Express has not only made significant scientific discoveries but also demonstrated technological advancements. For example, it was one of the first spacecraft to use radar to study the subsurface of another planet. Its pioneering use of the MARSIS instrument has inspired future missions that will rely on similar technology to explore planetary bodies, such as the upcoming Europa Clipper mission to Jupiter’s moon Europa.

Additionally, Mars Express was the first European mission to Mars, marking an important milestone for ESA’s planetary exploration program. The spacecraft has paved the way for other European missions, including the ExoMars missions, which aim to further investigate the possibility of life on Mars.

Conclusion

Mars Express stands as a testament to the power of international collaboration and technological innovation. Over the course of more than 20 years, it has transformed our understanding of the Red Planet, revealing Mars as a dynamic world with a complex history and the potential for life. With its continued operation, Mars Express remains a valuable asset in humanity’s quest to unlock the mysteries of our neighboring planet. As it continues to orbit Mars, the spacecraft is likely to contribute even more discoveries in the years to come, expanding our knowledge of both Mars and the broader solar system.

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