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Origins of intense light in supermassive black holes and Tidal Disruption Events revealed

Origins of intense light in supermassive black holes and Tidal Disruption Events revealed


A new study by Hebrew University is a significant breakthrough in understanding Tidal Disruption Events involving supermassive black holes.

For the first time, the new simulations accurately replicate the entire sequence of a Tidal Disruption Event from stellar disruption to the peak luminosity of the resulting flare.

The mysteries of supermassive black holes have long captivated astronomers, offering a glimpse into the deepest corners of our Universe. The research sheds new light on these enigmatic cosmic entities.

The study, ‘Stream-disk shocks as the origins of peak light in Tidal Disruption Events,’ is published in Nature.

A significant leap forward in understanding supermassive black holes

Supermassive black holes, ranging from millions to billions of times the mass of our Sun, have remained elusive despite their pivotal role in shaping galaxies.

Their extreme gravitational pull warps spacetime, creating an environment that defies conventional understanding and challenges observational astronomers.

Enter Tidal Disruption Events, a dramatic phenomenon that occurs when ill-fated stars venture too close to a black hole’s event horizon and are torn apart into thin streams of plasma.

As this plasma returns towards the black hole, a series of shockwaves heat it up, leading to an extraordinary display of luminosity – a flare that surpasses the collective brightness of an entire galaxy for weeks or even months.

The study represents a significant leap forward in understanding these cosmic events.

Their simulations have recreated a realistic Tidal Disruption Event for the first time, capturing the complete sequence from the initial star disruption to the peak of the ensuing luminous flare, all made possible by pioneering radiation-hydrodynamics simulation software developed at Hebrew University.

Uncovering unexplored effects of Tidal Disruption Events

This research has uncovered a previously unexplored type of shockwave within Tidal Disruption Events, revealing that these events dissipate their energy faster than previously understood.

By clarifying this aspect, the study resolves a long-standing theoretical debate, confirming that the brightest phases of a Tidal Disruption Event flare are powered by shock dissipation – a revelation that sets the stage for comprehensive exploration by observational astronomers.

These findings pave the way for translating observations into precise measurements of crucial black hole properties, including mass and spin.

Moreover, these cosmic occurrences could serve as a litmus test for validating Einstein’s predictions in extreme gravitational environments.

Overall, the study not only unravels the intricate dynamics of Tidal Disruption Events but also opens a new chapter in our quest to comprehend the fundamental workings of supermassive black holes.

Their simulations mark a crucial step towards harnessing these celestial events as invaluable tools for deciphering the cosmic mysteries lurking at the heart of galaxies.



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