A new study from Caltech's Jim Fuller proposes a model showing how escaping mass from sun-like stars during their death throes leads to a series of 'little kicks.'

Pasadena

Who

Jim Fuller, Kareem El-Badry

What

When

Mon, 15 Jun 2026 21:40:05 GMT · 3h 46m ago

Where

Pasadena ·

Why

The model connects randomly oriented mass ejection events to the suspected kicks experienced by white dwarfs, an observation that has puzzled researchers for several years.

The Frontline Impact

How this affects you

This new astrophysical model provides a physics-based explanation for why white dwarfs move in specific ways, and how these movements can decouple binary star systems, impacting our understanding of stellar evolution and star distribution.

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Currently Reading3h 46m ago
A new study from Caltech's Jim Fuller proposes a model showing how escaping mass from sun-like stars during their death throes leads to a series of 'little kicks.'
Health & Science3h 46m ago
A new Caltech study proposes a model showing that escaping mass from the surfaces of sun-like stars in their final stages leads to a series of "kicks."
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Health & Science3h 46m ago
A new study proposes a model showing how escaping mass from the surfaces of sun-like stars leads to a series of "little kicks" during their final death throes.
Open article

Verified Sources & Citations

Phys.org
https://phys.org/news/2026-06-star-death-throes-involve-lot.html
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