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Πε. Νοέ 14th, 2024

Η μηχανική εκμάθηση βελτιώνει την εικόνα της μαύρης τρύπας M87

Η μηχανική εκμάθηση βελτιώνει την εικόνα της μαύρης τρύπας M87

Νέα εικόνα της υπερμεγέθους μαύρης τρύπας M87 που δημιουργήθηκε από τον αλγόριθμο PRIMO χρησιμοποιώντας δεδομένα EHT του 2017. Πίστωση: Medeiros et al. 2023

Η μηχανική μάθηση αναδομεί μια νέα εικόνα από τα δεδομένα EHT.

Φωτογραφία του M87[{” attribute=””>black hole has been enhanced using a machine learning technique called PRIMO, providing a more accurate representation and allowing for improved determinations of its mass and physical parameters.

The iconic image of the supermassive black hole at the center of M87—sometimes referred to as the “fuzzy, orange donut”—has gotten its first official makeover with the help of machine learning. The new image further exposes a central region that is larger and darker, surrounded by the bright accreting gas shaped like a “skinny donut.” The team used the data obtained by the Event Horizon Telescope (EHT) collaboration in 2017 and achieved, for the first time, the full resolution of the array.

In 2017, the EHT collaboration used a network of seven pre-existing telescopes around the world to gather data on M87, creating an “Earth-sized telescope.” However, since it is infeasible to cover the Earth’s entire surface with telescopes, gaps arise in the data—like missing pieces in a jigsaw puzzle.

M87 Black Hole Comparison

M87 supermassive black hole originally imaged by the EHT collaboration in 2019 (left); and new image generated by the PRIMO algorithm using the same data set (right). Credit: Medeiros et al. 2023

“With our new machine learning technique, PRIMO, we were able to achieve the maximum resolution of the current array,” says lead author Lia Medeiros of the Institute for Advanced Study. “Since we cannot study black holes up close, the detail of an image plays a critical role in our ability to understand its behavior. The width of the ring in the image is now smaller by about a factor of two, which will be a powerful constraint for our theoretical models and tests of gravity.”

PRIMO, which stands for principal-component interferometric modeling, was developed by EHT members Lia Medeiros (Institute for Advanced Study), Dimitrios Psaltis (Georgia Tech), Tod Lauer (NOIRLab), and Feryal Özel (Georgia Tech). Their publication, “The Image of the M87 Black Hole Reconstructed with PRIMO,” was published today (April 13) in The Astrophysical Journal Letters.

“PRIMO is a new approach to the difficult task of constructing images from EHT observations,” said Lauer. “It provides a way to compensate for the missing information about the object being observed, which is required to generate the image that would have been seen using a single gigantic radio telescope the size of the Earth.”

Animated M87 Black Hole Comparison

Animation fades from M87 black hole image, first produced by the EHT collaboration in 2019, to the new image generated by the PRIMO algorithm using the same data set. Credit: Medeiros et al. 2023

PRIMO relies on dictionary learning, a branch of machine learning which enables computers to generate rules based on large sets of training material. For example, if a computer is fed a series of different banana images—with sufficient training—it may be able to determine if an unknown image is or is not a banana. Beyond this simple case, the versatility of machine learning has been demonstrated in numerous ways: from creating Renaissance-style works of art to completing the unfinished work of Beethoven. So how might machines help scientists to render a black hole image? The research team has answered this very question.

With PRIMO, computers analyzed over 30,000 high-fidelity simulated images of black holes accreting gas. The ensemble of simulations covered a wide range of models for how the black hole accretes matter, looking for common patterns in the structure of the images. The various patterns of structure were sorted by how commonly they occurred in the simulations, and were then blended to provide a highly accurate representation of the EHT observations, simultaneously providing a high fidelity estimate of the missing structure of the images. A paper pertaining to the algorithm itself was published in The Astrophysical Journal on February 3, 2023.

“We are using physics to fill in regions of missing data in a way that has never been done before by using machine learning,” added Medeiros. “This could have important implications for interferometry, which plays a role in fields from exo-planets to medicine.”


Επισκόπηση των προσομοιώσεων που δημιουργήθηκαν για το εκπαιδευτικό σύνολο αλγορίθμων PRIMO. Πίστωση: Medeiros et al. 2023

Η ομάδα επιβεβαίωσε ότι η πρόσφατα παρεχόμενη εικόνα είναι σύμφωνη με τα δεδομένα EHT και με θεωρητικές προβλέψεις, συμπεριλαμβανομένου του φωτεινού δακτυλίου των εκπομπών που αναμένεται να προκύψουν από την πτώση θερμού αερίου στη μαύρη τρύπα. Η δημιουργία μιας εικόνας απαιτεί την ανάληψη του κατάλληλου σχήματος των πληροφοριών που λείπουν και το PRIMO το έκανε βασιζόμενος στην ανακάλυψη του 2019 ότι η μαύρη τρύπα M87 με τεράστιες λεπτομέρειες φαινόταν ακριβώς όπως είχε προβλεφθεί.

«Σχεδόν τέσσερα χρόνια μετά την αποκάλυψη της πρώτης οριζόντιας εικόνας μιας μαύρης τρύπας από την EHT το 2019, θέσαμε ένα ακόμη ορόσημο, δημιουργώντας μια εικόνα που χρησιμοποιεί την πλήρη ανάλυση της μήτρας για πρώτη φορά», δήλωσε ο Ψάλτης. «Οι νέες τεχνικές μηχανικής μάθησης που έχουμε αναπτύξει παρέχουν μια χρυσή ευκαιρία για τη συλλογική μας εργασία να κατανοήσει τη φυσική των μαύρων τρυπών».

Η νέα εικόνα θα πρέπει να οδηγήσει σε ακριβέστερους προσδιορισμούς της μάζας της μαύρης τρύπας M87 και των φυσικών παραμέτρων που καθορίζουν την τρέχουσα εμφάνισή της. Τα δεδομένα παρέχουν επίσης την ευκαιρία στους ερευνητές να θέτουν μεγαλύτερους περιορισμούς στις εναλλακτικές λύσεις του ορίζοντα γεγονότων (με βάση τη χαμηλότερη σκοτεινή κεντρική φωτεινότητα) και να εκτελούν πιο ισχυρές δοκιμές βαρύτητας (με βάση το μικρότερο μέγεθος δακτυλίου). Το PRIMO μπορεί επίσης να εφαρμοστεί σε πρόσθετες παρατηρήσεις EHT, συμπεριλαμβανομένων εκείνων του Sgr A*, της κεντρικής μαύρης τρύπας στην περιοχή μας.[{” attribute=””>Milky Way galaxy.

M87 is a massive, relatively nearby, galaxy in the Virgo cluster of galaxies. Over a century ago, a mysterious jet of hot plasma was observed to emanate from its center. Beginning in the 1950s, the then new technique of radio astronomy showed the galaxy to have a compact bright radio source at its center. During the 1960s, M87 had been suspected to have a massive black hole at its center powering this activity. Measurements made from ground-based telescopes starting in the 1970s, and later the Hubble Space Telescope starting in the 1990s, provided strong support that M87 indeed harbored a black hole weighing several billion times the mass of the Sun based on observations of the high velocities of stars and gas orbiting its center. The 2017 EHT observations of M87 were obtained over several days from several different radio telescopes linked together at the same time to obtain the highest possible resolution. The now iconic “orange donut” picture of the M87 black hole, released in 2019, reflected the first attempt to produce an image from these observations.

“The 2019 image was just the beginning,” stated Medeiros. “If a picture is worth a thousand words, the data underlying that image have many more stories to tell. PRIMO will continue to be a critical tool in extracting such insights.”

Reference: “The Image of the M87 Black Hole Reconstructed with PRIMO” by Lia Medeiros, Dimitrios Psaltis, Tod R. Lauer and Feryal Özel3, 13 April 2023, The Astrophysical Journal Letters.
DOI: 10.3847/2041-8213/acc32d

Development of the PRIMO algorithm was enabled through the support of the National Science Foundation Astronomy and Astrophysics Postdoctoral Fellowship.

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