NASA's OSIRIS-REx Mission Unveils Asteroid Bennu's Secrets, Ignites New Quest to Study Near-Earth Object Apophis

October 7, 2024
NASA's OSIRIS-REx Mission Unveils Asteroid Bennu's Secrets, Ignites New Quest to Study Near-Earth Object Apophis
  • NASA's OSIRIS-REx mission successfully returned a sample of dust and rocks from the near-Earth asteroid Bennu on September 24, 2023, delivering 4.3 ounces (122 grams) of material.

  • The mission exceeded its initial goal of collecting 2 ounces (60 grams), providing significant insights into the early solar system and the potential origins of life on Earth.

  • Initial studies of the asteroid material revealed high quantities of carbon-based compounds and hydrated minerals, suggesting that asteroids may have contributed essential components for life to early Earth.

  • Researchers identified magnesium sodium phosphate in the sample, indicating that Bennu's origins may be more complex than previously thought, possibly stemming from a larger, water-rich celestial body.

  • The majority of the asteroid sample is curated at NASA facilities, while portions have been distributed to key research institutions and select museums to promote public engagement.

  • Following the Bennu sample return, the OSIRIS-REx mission has expanded into a new mission called OSIRIS-APEX, which aims to study the near-Earth asteroid Apophis, set to approach Earth in 2029.

  • The OSIRIS-APEX mission, led by Dani Mendoza DellaGiustina, will provide data on the interactions between near-Earth objects and Earth's gravitational field, which is crucial for planetary defense strategies.

  • The mission's data may provide insights into a potential fifth fundamental force of the universe, as suggested by a study from an international team led by Los Alamos National Laboratory.

  • Co-author Sunny Vagnozzi emphasized that their findings offer some of the tightest limits on potential fifth forces, which could aid in the search for ultralight bosons and dark matter.

  • Dark matter, which constitutes about 85% of the universe's total matter, remains poorly understood in terms of its particle composition and forces.

  • Lead author Yu-Dai Tsai noted that tracking data from Bennu could enhance our understanding of the Standard Model of physics, gravity, and dark matter.

  • The team utilized ground-based tracking data collected before and during the OSIRIS-REx mission to investigate extensions of the Standard Model.

Summary based on 2 sources


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