The Passage of the Solar System through the Edge of the Local Bubble.

Opher, Merav, Loeb, Abraham, Zucker, Catherine, Goodman, Alyssa, Konietzka, Ralf, Worden, Alexandra Z., Economo, Evan P., Miller, Jesse A., Alves, João, Grone, Jonathan, Kornbleuth, Marc, Peek, J. E. G. and Foley, Michael M. (2024) The Passage of the Solar System through the Edge of the Local Bubble. Open Access The Astrophysical Journal, 972 (2). art.Nr.: 201. DOI 10.3847/1538-4357/ad596e.

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Abstract

The Sun moves through the interstellar medium (ISM) at a velocity of similar to 19 pc Myr-1, making the conditions outside the solar system vary with time over millions of years. Today's solar system is protected from interstellar particles by the heliosphere, the bubble formed by the solar wind as the Sun moves through the ISM, which engulfs the planets. There is geological evidence from 60Fe that Earth was in direct contact with the ISM 2-3 and 5-7 million years ago (MYA). Recent work argues that the Sun encountered a massive cold cloud 2 MYA as part of the Local Ribbon of Cold Clouds that shrunk the heliosphere and exposed Earth to the ISM. Here, we consider the effects of the passage of the Sun through the edge of the Local Bubble occurring at 6.8-0.4+0.5 MYA assuming that the Sun encountered a cloud with a density of 900 cm-3. If we consider additional turbulent motion within the cloud due to shocks, the density encountered can be as low as 283 cm-3. Clouds of this density cover a small but nonzero (less than or similar to 4.6%) fraction of the surface of the Local Bubble, making an encounter plausible. Using a state-of-the art magnetohydrodynamic model, we show that the heliosphere shrank to a scale smaller than Earth's orbit, thereby exposing Earth to cold dense ISM, consistent with 60Fe evidence. The timing of the event matches perturbations observed in the paleoclimate record recovered from deep-sea sediments. The passage through the Local Bubble's surface and contraction of the heliosphere therefore may have impacted the climate and biosphere significantly, suggesting a new driver of major events in Earth's history.

Document Type: Article
Keywords: Interstellar dust; Heliosphere; supernovae; climate; wind;
Research affiliation: OceanRep > GEOMAR > FB3 Marine Ecology > FB3-OEB Ökosystembiologie des Ozeans
Woods Hole
Main POF Topic: PT6: Marine Life
Refereed: Yes
Open Access Journal?: Yes
Publisher: IOP
Related URLs:
Date Deposited: 23 Sep 2024 14:20
Last Modified: 23 Sep 2024 14:20
URI: https://oceanrep.geomar.de/id/eprint/60756

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