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Chang'e-6 farside basalts reveal a reinforced lunar dynamo

Chang'e-6 farside basalts reveal a reinforced lunar dynamo
The ancient strength of the lunar magnetic field recorded by the Chang'e-6 basalt clasts reveal the existence of a relatively active lunar dynamo at 2.8 Ga. Credit: Zhang Min, Qi Kaixian, and Shi Pingyuan

The evolution of the lunar dynamo is crucial for understanding the moon's deep interior structure, thermal history, and surface environment. A study by Chinese scientists conducted paleomagnetic analyses on basalts returned by the Chang'e-6 mission and revealed a significant reinforcement of the lunar dynamo approximately 2.8 billion years ago (Ga).

This work is in Nature.

Previous paleomagnetic studies of nearside lunar samples have established a general timeline for the evolution of the moon's magnetic field. However, limited spatial and temporal constraints have left the evolutionary trajectory of the lunar dynamo unclear.

The Chang'e-6 mission, which returned the first farside basalt samples dated to approximately 2.8 Ga, provides a unique opportunity to fill this critical gap in our understanding of the lunar dynamo's spatiotemporal evolution.

Led by Prof. Zhu Rixiang at the Institute of Geology and Geophysics of the Chinese Academy of Sciences (CAS), Associate Professor Cai Shuhui and her colleagues measured the ancient magnetic field strength from the Chang'e-6 basalts, obtaining values ranging from approximately 5 to 21 microteslas (µT).

These findings revealed an unexpected resurgence in field strength at 2.8 Ga, following a sharp decline around 3.1 Ga. This challenges the prevailing hypothesis that the lunar dynamo entered a low-energy state after 3 Ga and remained in this condition until its cessation.

The researchers proposed that the lunar magnetic field during this period may have been driven by a basal magma ocean and/or powered by precessional forces. Additional mechanisms, such as core crystallization, may also have a role.

These findings suggest that the moon's deep interior remained hot and geologically active well into its mid-early history.

This study represents the first ever paleomagnetic data obtained from the moon's farside, providing critical insights into the intermediate stages of the lunar dynamo's . By synthesizing this data with existing findings, the researchers suggested significant fluctuations in the lunar between 3.5 and 2.8 Ga, indicating a highly unstable during this period.

These results offer valuable guidance for future lunar exploration missions, including the search for potential magnetic reversals.

More information: Shuhui Cai et al, A reinforced lunar dynamo recorded by Chang'e-6 farside basalt, Nature (2024).

Journal information: Nature

Citation: Chang'e-6 farside basalts reveal a reinforced lunar dynamo (2024, December 20) retrieved 14 May 2025 from /news/2024-12-farside-basalts-reveal-lunar-dynamo.html
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