Author: Anchee Kuter
E-mail: ancheeon@gmail.com
March 29, 2025
This paper presents a speculative hypothesis that interprets black holes as universal “charging stations” capable of converting gravitationally captured matter (and associated information) into a form of re-emitted energy. We examine the possibility that black holes operate as dynamic interfaces in which the infalling data (matter–energy) is processed and partially re-emitted in the form of Hawking radiation. The model envisions black holes as finite-lifetime “information–energy boards” that transform captured inputs into net outputs, potentially contributing to the large-scale energy balance of the universe.
Black holes have long been central to theoretical physics, owing to their extreme gravitational fields and the resulting breakdown of standard spacetime descriptions. Despite significant advances in black hole thermodynamics – most notably Hawking’s derivation of black hole radiation – questions remain regarding the fundamental nature of how information is lost, preserved, or transformed. Traditional discussions focus on the so-called “information paradox,” whereas more recent approaches often highlight holography or entanglement. The present hypothesis, by contrast, proposes a streamlined viewpoint: black holes as cosmic portals of energy–information transmutation, analogous to “charging stations” that both absorb and re-emit certain aspects of the universe’s total informational content.
Matter entering a black hole is conventionally presumed to carry information (quantum states, particle configurations, etc.). In standard general relativity, once past the event horizon, such information is effectively hidden from the external universe. From a thermodynamic standpoint, the black hole’s entropy increases with additional mass and can only be dissipated via Hawking radiation.
Hawking radiation implies that black holes radiate thermally, slowly losing mass over timescales proportional to their mass cubed. If one interprets matter/energy as an embodiment of encoded information, then Hawking radiation can be seen as a partial re-emission of that informational content. Within the present hypothesis, this re-emission is not merely a random byproduct; rather, it may signify an organized “output” channel, effectively converting infalling structure into a refined form of high-entropy radiation.
Traditionally, black holes are viewed as purely “absorptive” entities with minimal outward communication (beyond gravitational interaction and radiation). In this model, black holes function as bidirectional interfaces: they strongly capture matter and associated data (infalling side), then translate some fraction of that “internal processing” into outward-flowing energy (Hawking photons). This leads to a scenario where the net gravitational “inflow” is balanced by a slow “outflow” in radiation form, thereby functioning analogously to a “recharge–discharge” station.