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New models challenge the black hole singularity concept
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New models challenge the black hole singularity concept
by Erica Marchand
Paris, France (SPX) May 06, 2025

Physicists continue to grapple with the elusive singularities believed to reside at the cores of black holes, a concept long regarded as signaling the breakdown of known physical laws. Stefano Liberati, director of IFPU, invokes the Latin phrase "Hic sunt leones" to describe this uncharted territory. The phrase historically marked unexplored regions on maps-an apt metaphor for the unknown physics within black holes.

The origin of this mystery dates back to Einstein's general relativity, published in 1915. Just a year later, Karl Schwarzschild solved Einstein's equations, predicting compact objects now known as black holes. These entities, with gravity so intense that even light cannot escape, have fascinated scientists for over a century. Yet, the predicted singularity-a point of infinite density-poses a profound challenge, suggesting that general relativity breaks down under extreme conditions.

Despite accumulating observational evidence, including gravitational wave detections and Event Horizon Telescope images, the singularity remains unresolved. These observations illuminate only the exterior features of black holes, leaving their inner workings in the shadows.

Seeking a resolution, researchers are turning to quantum gravity theories. These propose models where quantum effects prevent the formation of singularities. A recent paper born from discussions at an IFPU workshop highlights such efforts. Unlike traditional review articles, the paper reflects the synthesis of views from a diverse group of theorists and phenomenologists. "It emerged from a set of discussions... which roughly correspond to the structure of the article itself," says Liberati. He notes that some participants shifted their perspectives through these exchanges.

The workshop examined three main models: classical black holes with singularities and event horizons, regular black holes that eliminate the singularity but retain the horizon, and black hole mimickers lacking both. The paper explores how these structures might arise, transform, and how future observations might distinguish them.

Although existing data reveal little about black hole interiors, differences in the external behavior of mimickers or regular black holes could offer indirect evidence. "Regular black holes, and especially mimickers, are never exactly identical to standard black holes... even outside the horizon," explains Liberati. Upcoming high-resolution imaging and gravitational wave measurements may detect subtle anomalies linked to alternative models.

Thermal emissions from horizonless mimickers, variations in photon ring structures, and deviations in gravitational waveforms all offer promising avenues. The challenge lies in predicting what signatures to look for and how they might manifest. Advances in theory and simulation are expected to guide this effort, shaping the design of new observational tools.

Ultimately, this research could forge a crucial link between general relativity and quantum mechanics. As Liberati puts it, "We are entering an era where a vast and unexplored landscape is opening up before us."

Research Report:Towards a Non-singular Paradigm of Black Hole Physics

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