EI2GYB > ASTRO    14.11.25 12:00l 55 Lines 4851 Bytes #199 (0) @ WW
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Subj: Astronomers discover new pulsating ultraluminous X-ray sour
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Astronomers discover new pulsating ultraluminous X-ray source

Using ESA's XMM-Newton satellite, European astronomers have observed ultraluminous X-ray sources (ULXs) in the galaxy NGC 4631. As a result, they detected a new pulsating ULX, which received the designation X-8. The research is published November 6 on the arXiv preprint server.
The nature of ULXs still baffles scientists

ULXs are point sources in the sky that are so bright in X-rays that each emits more radiation than a million suns emit at all wavelengths. They are less luminous than active galactic nuclei, but more consistently luminous than any known stellar process. Although numerous studies of ULXs have been conducted, the basic nature of these sources still remains unknown.

Some persistent ULXs exhibit pulsations and therefore are categorized as ultraluminous X-ray pulsars (ULXPs). Discovering and studying objects of this type could be crucial for advancing our understanding of accretion physics-for instance, mechanisms that enable the sustained X-ray luminosities of ULXs which exceed the Eddington limit.
One of many in the Whale galaxy

NGC 4631, dubbed the Whale galaxy, is a late-type starburst galaxy at a distance of some 24.45 million light years, known to host at least seven ULXs. A team of astronomers led by Lorenzo Ducci of the University of Tübingen in Germany, decided to investigate this galaxy in detail with the use of XMM-Newton's European Photon Imaging Camera (EPIC). Focusing on the ULXs in NGC 4631, they discovered what appears to be a new pulsating ultraluminous X-ray source.

"In this letter, we report the discovery of pulsations from a new ULX located in a crowded region of the galactic disk of NGC 4631," the researchers wrote.

The observations, carried out in July 2025, identified a significant signal for the period of approximately 9.66 seconds from a new source very close to the previously known ULX designated X?2. The new source received the designation X-8 and turned out to be brighter than X?2, with an X-ray luminosity at a level of 3.4 duodecillion erg/s.
Speeding up and pulsating

The observations found that X-8 has a spin period derivative of about ?9.6 ž 10?8 seconds/second. Therefore, X?8 shows one of the most rapid spin-up rates observed in pulsating ULXs, with a spin-up timescale (spin period/spin period derivative) of only 3.2 years.

The astronomers noted that such a high spin-up rate of X-8 could originate from orbital motion of the pulsar, accretion torque on the neutron star, or a combination of both mechanisms.

The study also found that the magnetic field strength of the newfound ULXP should be within a range of 10-200 trillion Gauss, which is consistent with the magnetic field strengths inferred by other pulsating ultraluminous X-ray sources.

Summing up the results, the authors of the paper underscored the importance of their discovery in the context of super-Eddington luminosities studies.

"This new ULX pulsar adds a key source to the small known population, and will enable future studies to better constrain the physical mechanisms responsible for their super-Eddington luminosities," the scientists concluded.


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