Kugelblitz (astrophysics)

A kugelblitz (German: [ˈkuːɡl̩ˌblɪt͡s] ^ⓘ) is a theoretical astrophysical object predicted by general relativity. It is a concentration of heat, light, or radiation so intense that its energy forms an event horizon and becomes self-trapped. In other words, if enough radiation is aimed into a region of space, the concentration of energy can warp spacetime so much that it creates a black hole. This would be a black hole the original mass–energy of which was in the form of radiant energy rather than matter;^[1] however, there is currently no uniformly accepted method of distinguishing black holes by origin. (See the no-hair theorem.)

John Archibald Wheeler's 1955 Physical Review paper entitled "Geons" refers to the kugelblitz phenomenon and explores the idea of creating such particles (or toy models of particles) from spacetime curvature.^[2] This paper coined the term kugelblitz.^[3]

A study published in Physical Review Letters in 2024 argues that the formation of a kugelblitz is impossible due to dissipative quantum effects like vacuum polarization, which prevent sufficient energy buildup to create an event horizon.^[4] The study concludes that such a phenomenon cannot occur in any realistic scenario within our universe.^[3] While the intensity needed to directly verify this calculation is 50 orders of magnitudes higher than the current level of technology allows (as of 2024),^[5] the spontaneous disintegration of a high-energy photon into an electron-positron pair (the Schwinger effect) only requires 1000 times more energy than the most advanced lasers can produce.^[3]

It has been speculated that the kugelblitz could be the basis interstellar engines (drives) for future black hole starships.^[6]^[5]^[7]

In fiction

A kugelblitz is a major plot point in the third season of the American superhero television series The Umbrella Academy (2019–2024).^[5]
A kugelblitz is the home of a major faction in the Heechee Saga (1972-2004) by Frederik Pohl.
A universe destroying kugelblitz is part of the plot in "The World We Make" (2022) by N.K.Jemisin.

References

^ Senovilla, José M M (January 8, 2015). "Black hole formation by incoming electromagnetic radiation". Classical and Quantum Gravity. 32 (1): 017001. arXiv:1408.2778. Bibcode:2015CQGra..32a7001S. doi:10.1088/0264-9381/32/1/017001. ISSN 0264-9381.
^ Wheeler, John Archibald (January 15, 1955). "Geons". Physical Review. 97 (2): 511–536. Bibcode:1955PhRv...97..511W. doi:10.1103/PhysRev.97.511. ISSN 0031-899X.
^ ^a ^b ^c Ball, Philip (July 26, 2024). "Black Holes Can't Be Created by Light". Physics. American Physical Society (APS). Retrieved June 22, 2025.
^ Álvarez-Domínguez, Álvaro; Garay, Luis J.; Martín-Martínez, Eduardo; Polo-Gómez, José (July 26, 2024). "No Black Holes from Light". Physical Review Letters. 133 (4): 041401. arXiv:2405.02389. Bibcode:2024PhRvL.133d1401A. doi:10.1103/PhysRevLett.133.041401. ISSN 0031-9007. PMID 39121419.
^ ^a ^b ^c Conover, Emily (June 24, 2024). "A black hole made from pure light is impossible, thanks to quantum physics". Science News. Retrieved June 22, 2025.
^ Lee, J. S. (December 2013). "The Effect of Hawking Radation [sic] on Fermion Re-Inflation of a Schwartszchild Kugelblitz". Journal of the British Interplanetary Society. 66: 364–376. Bibcode:2013JBIS...66..364L. ISSN 0007-084X.
^ O'Dowd, Matt (October 15, 2015). "5 REAL Possibilities for Interstellar Travel". YouTube. PBS Space Time. Retrieved June 22, 2025.

[1] Senovilla, José M M (January 8, 2015). "Black hole formation by incoming electromagnetic radiation". Classical and Quantum Gravity. 32 (1): 017001. arXiv:1408.2778. Bibcode:2015CQGra..32a7001S. doi:10.1088/0264-9381/32/1/017001. ISSN 0264-9381.

[Wheeler1955PhysRev-2] Wheeler, John Archibald (January 15, 1955). "Geons". Physical Review. 97 (2): 511–536. Bibcode:1955PhRv...97..511W. doi:10.1103/PhysRev.97.511. ISSN 0031-899X.

[:0-3] Ball, Philip (July 26, 2024). "Black Holes Can't Be Created by Light". Physics. American Physical Society (APS). Retrieved June 22, 2025.

[4] Álvarez-Domínguez, Álvaro; Garay, Luis J.; Martín-Martínez, Eduardo; Polo-Gómez, José (July 26, 2024). "No Black Holes from Light". Physical Review Letters. 133 (4): 041401. arXiv:2405.02389. Bibcode:2024PhRvL.133d1401A. doi:10.1103/PhysRevLett.133.041401. ISSN 0031-9007. PMID 39121419.

[:1-5] Conover, Emily (June 24, 2024). "A black hole made from pure light is impossible, thanks to quantum physics". Science News. Retrieved June 22, 2025.

[6] Lee, J. S. (December 2013). "The Effect of Hawking Radation [sic] on Fermion Re-Inflation of a Schwartszchild Kugelblitz". Journal of the British Interplanetary Society. 66: 364–376. Bibcode:2013JBIS...66..364L. ISSN 0007-084X.

[7] O'Dowd, Matt (October 15, 2015). "5 REAL Possibilities for Interstellar Travel". YouTube. PBS Space Time. Retrieved June 22, 2025.

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v t e Black holes
Outline
Types	BTZ black hole Schwarzschild Rotating Charged Virtual Kugelblitz Supermassive Primordial Direct collapse Rogue Malament–Hogarth spacetime
Size	Micro Extremal Electron Stellar Microquasar Intermediate-mass Supermassive Active galactic nucleus Quasar LQG Blazar OVV
Formation	Stellar evolution Gravitational collapse Neutron star Related links Tolman–Oppenheimer–Volkoff limit White dwarf Related links Supernova Micronova Hypernova Related links Gamma-ray burst Binary black hole Quark star Supermassive star Quasi-star Supermassive dark star X-ray binary
Properties	Astrophysical jet Gravitational singularity Ring singularity Theorems Event horizon Photon sphere Innermost stable circular orbit Ergosphere Penrose process Blandford–Znajek process Accretion disk Hawking radiation Gravitational lens Microlens Bondi accretion M–sigma relation Quasi-periodic oscillation Thermodynamics Bekenstein bound Bousso's holographic bound Immirzi parameter Schwarzschild radius Spaghettification
Issues	Black hole complementarity Information paradox Cosmic censorship ER = EPR Final parsec problem Firewall (physics) Holographic principle No-hair theorem
Metrics	Schwarzschild (Derivation) Kerr Reissner–Nordström Kerr–Newman Hayward
Alternatives	Nonsingular black hole models Black star Dark star Dark-energy star Gravastar Magnetospheric eternally collapsing object Planck star Q star Fuzzball Geon
Analogs	Optical black hole Sonic black hole
Lists	Black holes Most massive Nearest Quasars Microquasars
Related	Outline of black holes Black Hole Initiative Black hole starship Black holes in fiction Big Bang Big Bounce Compact star Exotic star Quark star Preon star Gravitational waves Gamma-ray burst progenitors Gravity well Hypercompact stellar system Membrane paradigm Naked singularity Population III star Supermassive star Quasi-star Supermassive dark star Rossi X-ray Timing Explorer Superluminal motion Timeline of black hole physics White hole Wormhole Tidal disruption event Planet Nine
Notable	Cygnus X-1 XTE J1650-500 XTE J1118+480 A0620-00 Sagittarius A* Centaurus A Phoenix Cluster PKS 1302-102 OJ 287 SDSS J0849+1114 TON 618 MS 0735.6+7421 NeVe 1 Hercules A 3C 273 Q0906+6930 Markarian 501 ULAS J1342+0928 PSO J030947.49+271757.31 AT2018hyz Swift J1644+57 1ES 1927+654
Category Commons

In fiction

See also

References