Pairs of stars that orbit each other exhibit unexpected magnetic activity

Embargoed until: Publicly released: 2025-05-23 19:00

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Stars in close binary systems - pairs of stars orbiting each other at close range - can exhibit unexpectedly high levels of magnetic activity, according to Australian and international researchers. This activity, responsible for flares and sunspots, is usually powered by the star’s rotation, with magnetic activity higher in faster spinning stars, but only up to a known limit. But the team found that close binary stars break this rule, with unexpectedly high magnetic activity given their spin, and in the most extreme cases - where stars spin especially fast - magnetic activity begins to decline. The researchers say this may be because of tidal forces between closely orbiting stars, affecting their magnetic activity. Understanding these effects could help us identify habitable exoplanets, the researchers conclude.

Media release

From: The Australian National University

Tidal forces between closely orbiting stars can amplify or reshape their magnetic behavior

A new study published in Nature Astronomy, led by Dr. Jie Yu, from ANU, reveals that stars in close binary systems—pairs of stars orbiting each other at close range—can exhibit unexpectedly high levels of magnetic activity. This activity, responsible for flares, sunspots, and other energetic outbursts, is usually powered by the star’s rotation. For single stars, surface magnetic activity increases with stellar rotation rate, but only up to a known limit, beyond which activity saturates.

Using data from China’s LAMOST telescope and Europe’s Gaia space observatory, Dr. Yu’s team found that close binary stars break this rule. Instead of leveling off, many of these stars show even stronger magnetic activity. And in the most extreme cases—where stars spin especially fast (orbital period < 0.5 day)—the activity curiously begins to decline, a phenomenon known as supersaturation.

The findings suggest that tidal forces between closely orbiting stars can amplify or reshape their magnetic behavior. Understanding these effects offers new insight into stellar evolution and the magnetic environments that surround stars—an important factor in determining the habitability of exoplanets.

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Journal/
conference: Nature Astronomy

Research:Paper

Organisation/s: The Australian National University, The University of Sydney, University of Southern Queensland

Funder: We acknowledge funding from the ERC Consolidator Grant DipolarSound (grant agreement 101000296). Z.H. acknowledges support from the Natural Science Foundation of China (grant numbers 12288102). Y.-S.T. acknowledges financial support from the Australian Research Council through DECRA Fellowship DE220101520. J.N. acknowledges support from US National Science Foundation grants AST-2009713 and AST-2319326. S.B. and J.Y. acknowledge the Joint Research Fund in Astronomy (U2031203) under a cooperative agreement between the National Natural Science Foundation of China (NSFC) and the Chinese Academy of Sciences (CAS). This work has made use of data from the European Space Agency (ESA) mission Gaia (http://www.cosmos.esa.int/gaia), processed by the Gaia Data Processing and Analysis Consortium (DPAC; http://www.cosmos.esa.int/web/gaia/dpac/consortium). Funding for the DPAC has been provided by national institutions— in particular, the institutions participating in the Gaia Multilateral Agreement. Guoshoujing Telescope (LAMOST) is a National Major Scientific Project built by the Chinese Academy of Sciences. Funding for the project has been provided by the National Development and Reform Commission. LAMOST is operated and managed by the National Astronomical Observatories, Chinese Academy of Sciences.

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