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Fermi Gamma-ray Area Telescope detects shock gamma-ray characteristic past our galaxy

January 12, 2024
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Fermi Gamma-ray Area Telescope detects shock gamma-ray characteristic past our galaxy
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NASA's Fermi detects surprise gamma-ray feature beyond our galaxy
This artist’s idea reveals your complete sky in gamma rays with magenta circles illustrating the uncertainty within the course from which extra high-energy gamma rays than common appear to be arriving. On this view, the aircraft of our galaxy runs throughout the center of the map. The circles enclose areas with a 68% (inside) and a 95% probability of containing the origin of those gamma rays. Credit score: NASA’s Goddard Area Flight Heart

Astronomers analyzing 13 years of knowledge from NASA’s Fermi Gamma-ray Area Telescope have discovered an sudden and as but unexplained characteristic outdoors of our galaxy.

“It’s a fully serendipitous discovery,” stated Alexander Kashlinsky, a cosmologist on the College of Maryland and NASA’s Goddard Area Flight Heart in Greenbelt, who offered the analysis on the 243rd meeting of the American Astronomical Society in New Orleans. “We discovered a a lot stronger sign, and in a unique a part of the sky, than the one we have been searching for.”

Intriguingly, the gamma-ray sign is present in an analogous course and with an almost similar magnitude as one other unexplained characteristic, one produced by a number of the most energetic cosmic particles ever detected.

A paper describing the findings is revealed in The Astrophysical Journal Letters.







Prime: An all-sky map of extragalactic gamma rays by which the central aircraft of our galaxy, proven in darkish blue the place information has been eliminated, runs throughout the center. The pink dot and circles point out the approximate course from which extra gamma rays than common appear to be arriving. Backside: An analogous all-sky map displaying the distribution of ultrahigh-energy cosmic rays detected by the Pierre Auger Observatory in Argentina. Crimson signifies instructions from which larger than common numbers of particles arrive, blue signifies instructions with fewer than common. This video superposes the Fermi map onto the cosmic ray map, illustrating the similarity of the dipole instructions. Credit score: The Astrophysical Journal Letters (2024). DOI: 10.3847/2041-8213/acfedd and the Pierre Auger Collaboration

The group was looking for a gamma-ray characteristic associated to the CMB (cosmic microwave background), the oldest mild within the universe. Scientists say the CMB originated when the recent, increasing universe had cooled sufficient to type the primary atoms, an occasion that launched a burst of sunshine that, for the primary time, might permeate the cosmos. Stretched by the following enlargement of area over the previous 13 billion years, this mild was first detected within the type of faint microwaves all around the sky in 1965.

Within the Seventies, astronomers realized that the CMB had a so-called dipole construction, which was later measured at excessive precision by NASA’s COBE (Cosmic Background Explorer) mission. The CMB is about 0.12% hotter, with extra microwaves than common, towards the constellation Leo, and colder by the identical quantity, with fewer microwaves than common, in the other way.

With a purpose to research the tiny temperature variations throughout the CMB, this sign have to be eliminated. Astronomers typically regard the sample on account of the movement of our personal photo voltaic system relative to the CMB at about 230 miles (370 kilometers) per second.







The group was looking for a gamma-ray sign associated to our photo voltaic system’s movement of about 230 miles (370 kilometers) per second relative to the CMB, which is broadly thought to be being chargeable for the dipole emission it shows. What they discovered as an alternative was a gamma-ray sign 10 instances stronger than anticipated from our galaxy’s movement and positioned removed from the CMB dipole. Credit score: NASA’s Goddard Area Flight Heart

This movement will give rise to a dipole sign within the mild coming from any astrophysical supply, however thus far the CMB is the one one which has been exactly measured. By searching for the sample in different types of mild, astronomers might affirm or problem the concept that the dipole is due fully to our photo voltaic system’s movement.

“Such a measurement is necessary as a result of a disagreement with the dimensions and course of the CMB dipole might present us with a glimpse into bodily processes working within the very early universe, doubtlessly again to when it was lower than a trillionth of a second outdated,” stated co-author Fernando Atrio-Barandela, a professor of theoretical physics on the College of Salamanca in Spain.

The group reasoned that by including collectively a few years of knowledge from Fermi’s LAT (Massive Space Telescope), which scans your complete sky many instances a day, a associated dipole emission sample could possibly be detected in gamma rays. Because of the consequences of relativity, the gamma-ray dipole must be amplified by as a lot as 5 instances over the at present detected CMB’s.







The scientists mixed 13 years of Fermi Massive Space Telescope observations of gamma rays above about 3 billion electron volts (GeV), eliminated all discrete sources and stripped out the central aircraft of our Milky Manner galaxy with the intention to analyze the extragalactic gamma-ray background. Evaluation of the ensuing information revealed part of the sky the place extra high-energy gamma rays are arriving than common. The course just isn’t exactly identified. The circles present areas the place there’s a 68% and a 95% probability of containing the origin of those gamma rays for one evaluation method. Credit score: NASA’s Goddard Area Flight Heart

The scientists mixed 13 years of Fermi LAT observations of gamma rays above about 3 billion electron volts (GeV); for comparability, seen mild has energies between about 2 and three electron volts. They eliminated all resolved and recognized sources and stripped out the central aircraft of our Milky Manner galaxy with the intention to analyze the extragalactic gamma-ray background.

“We discovered a gamma-ray dipole, however its peak is positioned within the southern sky, removed from the CMB’s, and its magnitude is 10 instances larger than what we’d count on from our movement,” stated co-author Chris Shrader, an astrophysicist on the Catholic College of America in Washington and Goddard. “Whereas it’s not what we have been searching for, we suspect it might be associated to an analogous characteristic reported for the highest-energy cosmic rays.”

Cosmic rays are accelerated charged particles—largely protons and atomic nuclei. The rarest and most energetic particles, referred to as UHECRs (ultrahigh-energy cosmic rays), carry greater than a billion instances the power of three GeV gamma rays, and their origins stay one of many greatest mysteries in astrophysics.

Fermi Gamma-ray Space Telescope detects surprise gamma-ray feature beyond our galaxy
Each the gamma-ray and the cosmic ray dipoles have strikingly comparable magnitudes – about 7% extra gamma rays or particles than common coming from one course and correspondingly smaller quantities arriving from the other way. Credit score: NASA’s Goddard Area Flight Heart

Since 2017, the Pierre Auger Observatory in Argentina has reported a dipole within the arrival course of UHECRs. Being electrically charged, cosmic rays are diverted by the galaxy’s magnetic discipline by completely different quantities relying on their energies, however the UHECR dipole peaks in a sky location much like what Kashlinsky’s group finds in gamma rays. And each have strikingly comparable magnitudes—about 7% extra gamma rays or particles than common coming from one course and correspondingly smaller quantities arriving from the other way.

The scientists assume it is possible the 2 phenomena are linked—that as but unidentified sources are producing each the gamma rays and the ultrahigh-energy particles. To unravel this cosmic conundrum, astronomers should both find these mysterious sources or suggest various explanations for each options.

Extra data:
A. Kashlinsky et al, Probing the Dipole of the Diffuse Gamma-Ray Background, The Astrophysical Journal Letters (2024). DOI: 10.3847/2041-8213/acfedd

Supplied by
NASA’s Goddard Area Flight Heart


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Fermi Gamma-ray Area Telescope detects shock gamma-ray characteristic past our galaxy (2024, January 11)
retrieved 12 January 2024
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