Breakthrough quantum tool
NASA scientists have developed a groundbreaking quantum technology tool aimed at discovering “water worlds” within our solar system. This innovation is pivotal in the search for extraterrestrial life, as the presence of liquid water is a key indicator.
Quest for extraterrestrial life
The potential for life beyond Earth is closely linked to the presence of liquid water. NASA’s Jet Propulsion Laboratory researcher, Dr. Hannes Kraus, stated, “Novel quantum sensors not only enable new science but also offer the chance to downscale former flagship-class instrumentation to a size and cost allowing flagship-class science on CubeSat-class platforms.”
Astrobiologists have long followed the mantra “Follow the Water,” focusing their search on the icy moons of gas and ice giants like Saturn’s Enceladus and Jupiter’s Europa, which are believed to harbor vast subsurface oceans beneath thick ice crusts.
Challenges and innovations
Penetrating these icy shells with conventional remote-sensing instruments such as cameras and radar is a significant challenge. Until landers or rovers can be deployed to melt or drill through the ice, scientists must rely on alternative techniques.
Magnetometry: A promising solution
Magnetometry has emerged as a promising method for detecting subsurface oceans. Magnetic fields can penetrate solid materials, providing valuable insights into the interiors of planetary bodies. Solid-state quantum magnetometers represent a major advancement in this field, offering competitive sensitivities with reduced power requirements, smaller size, and lower weight compared to traditional magnetometers.
These magnetometers also boast unique quantum advantages, such as self-calibration through spin-nuclear quantum interaction, which helps them compensate for drifts over time.
This technological breakthrough marks a significant step forward in the hunt for habitable worlds, potentially transforming our understanding of the solar system and the possibility of life beyond Earth.