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Professor proposes how a black hole in orbit around a planet could be a sign of an advanced civilization

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Professor proposes how a black hole in orbit around a planet could be a sign of an advanced civilization


Ray traced shadow of a spinning and charged black hole. Credit score: Simon Tyran, CC BY-SA 4.0

In 1971, English mathematical physicist and Nobel-prize winner Roger Penrose proposed how power could possibly be extracted from a rotating black hole. He argued that this could possibly be completed by constructing a harness across the black hole’s accretion disk, the place infalling matter is accelerated to shut to the pace of sunshine, triggering the discharge of power in a number of wavelengths.

Since then, a number of researchers have urged that superior civilizations might use this technique (the Penrose Course of) to energy their civilization and that this represents a technosignature we needs to be looking out for.

Examples embrace John M. Good’s Transcension Speculation, a proposed decision to the Fermi Paradox the place he urged superior intelligence might migrate to the area surrounding black holes to benefit from the power obtainable.

The newest comes from Harvard Professor Avi Loeb, who proposed in a current paper how superior civilizations might depend on a “Black Gap Moon” to supply their house planet with energy indefinitely. The way in which this black hole would illuminate the planet it orbits, he argues, would represent a possible technosignature for future SETI surveys.

Professor Loeb is the Frank B. Baird Jr. Professor of Science at Harvard College, the Director of the Director of the Institute for Idea and Computation on the Harvard-Smithsonian Heart of Astrophysics (CfA), the founding Director of the Black Gap Initiative (BHI), and the pinnacle of the Galileo Undertaking.

His newest paper, “Illumination of a Planet by a Black Gap Moon as a Technological Signature,” was not too long ago published within the Analysis Notes of the AAS.

In 1975, Stephen Hawking theorized that black holes emit photons, neutrinos, and a few bigger particles—thereafter often known as “Hawking Radiation.” Since then, proposals for utilizing black holes as an power supply typically fall into one among two camps.

On the one hand, there’s the potential for harnessing the angular momentum of their accretion disks (the “Penrose Course of”) or capturing the warmth and power generated by their hypervelocity jets (maybe within the type of a Dyson Sphere). On the opposite, there’s the potential for feeding matter onto the black hole and harnessing the ensuing Hawking Radiation.

In his paper, Loeb proposes how a complicated civilization might depend on the latter course of by engineering a black hole that will orbit its house planet. This black hole could be very small, weighing only one hundred thousand tons (1011 g).

If left unchecked, this black hole would evaporate in only a 12 months and a half by the emission of Hawking Radiation. However as Loeb instructed Universe In the present day through electronic mail, it could possibly be maintained by accreting comparatively small quantities of matter (2.2 kg; 4.85 lbs) onto it per second. In change, it could present an limitless provide of energy:

“This black hole system is probably the most environment friendly engine that I ever considered. The gasoline is transformed to power with the right effectivity of 100%, as a result of the mass falling into the black hole is finally popping out as Hawking radiation. I’ve not seen this concept mentioned earlier than and had a “Eureka second” after I realized it a couple of weeks in the past. The one different technique for changing mass to radiation with 100% effectivity is matter-antimatter annihilation.”

As Loeb signifies, the quantity of antimatter required is past something humanity can obtain at current. Since 1995, the particle colliders at CERN have managed to supply lower than 10 nanograms of antimatter, which is sufficient to energy a 60-watt lightbulb for 4 hours. Compared, Loeb’s proposed 1011g black hole might constantly provide 40 quadrillion (4015) Watts.

“The worldwide power use is a couple of terra-Watts, ten thousand instances lower than the ability provide of this black hole,” Loeb added. “The opposite benefit of this black hole engine is that it will probably use any type of matter as gasoline. It could possibly be trash. There isn’t a higher option to recycle trash than convert it into clear power with 100% effectivity.”






One other benefit is {that a} black hole can use any type of matter as gasoline, together with no matter waste the civilization produces. On this respect, a black hole engine would clear up a complicated civilization’s rubbish issues whereas offering an inexhaustible provide of power in return.

Globally, people produce roughly 1.92 billion metric tons (2.12 US tons) of waste yearly, which is having a extreme impression on the environment. This might be sufficient to feed a black hole engine weighing 1011 g for greater than 437 million years.

As to how such a feat could possibly be completed, Loeb refers to a earlier op-ed during which he theorized {that a} sufficiently superior civilization might create a “child universe” by quantum tunneling. Whereas such a feat could be one thing solely a Sort III Civilization (or extra superior) might obtain, a black hole engine could be a lot less complicated and maybe one thing a Sort II Civilization might engineer.

“That is the massive problem. The excellent news is that it’s a lot simpler to supply such a black hole than a child universe. However any manufacturing line of a ten11 g black hole requires compressing matter or radiation to a mass density that’s 60 orders of magnitude above the density of cast-iron. The density of atomic nuclei or neutron stars is just 15 orders of magnitude above stable density. This was potential to attain within the cosmic radiation density lower than a femtosecond after the Huge Bang.”

This was the topic of another recently written paper by Loeb during which he argued that, based mostly on Common Relativity, black holes will be made out of sunshine. However what’s most fascinating about this proposed black hole engine is the way in which it could be detectable light-years away, making it a viable technosignature that will point out the existence of a complicated civilization.

Like many proposed technosignatures, significantly Dyson Spheres and different megastructures, the existence of a black hole engine is speculative and theoretical. However as Freeman Dyson himself as soon as associated, no matter we will conceive (and if the physics are sound), a sufficiently superior civilization might have already been created. Stated Loeb:

“The black hole engine could possibly be found as a rogue rocky planet that’s illuminated by a gamma-ray moon with no stellar-mass companion. If we ever discover proof for such an engine, we would want to contemplate the chance that the supply was created or trapped as a primordial black hole by a extremely superior technological civilization. There isn’t a higher marker of technological innovation than making a furnace out of spacetime curvature within the type of a mini black hole.”

Extra data:
Abraham Loeb, Illumination of a Planet by a Black Gap Moon as a Technological Signature, Analysis Notes of the AAS (2024). DOI: 10.3847/2515-5172/ad6e7a

Offered by
Universe Today


Quotation:
Professor proposes how a black hole in orbit round a planet could possibly be an indication of a complicated civilization (2024, August 23)
retrieved 23 August 2024
from https://phys.org/information/2024-08-professor-black-hole-orbit-planet.html

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