Teleportation

(Redirected from Teletransporter)

Teleportation is the hypothetical transfer of matter or energy from one point to another without traversing the physical space between them. It is a common subject in science fiction literature and in other popular culture. Teleportation is often paired with time travel, being that the traveling between the two points takes an unknown period of time, sometimes being immediate. An apport is a similar phenomenon featured in parapsychology and spiritualism.[1][2]

There is no known physical mechanism that would allow for teleportation.[3] Frequently appearing scientific papers and media articles with the term teleportation typically report on so-called "quantum teleportation", a scheme for information transfer which, due to the no-communication theorem, still would not allow for faster-than-light communication.[4]

Etymology

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The use of the term teleport to describe the hypothetical movement of material objects between one place and another without physically traversing the distance between them has been documented as early as 1878.[5][6]

American writer Charles Fort is credited with having coined the word teleportation in 1931[7][8] to describe the strange disappearances and appearances of anomalies, which he suggested may be connected. As in the earlier usage, he joined the Greek prefix tele- (meaning "remote") to the root of the Latin verb portare (meaning "to carry").[9] Fort's first formal use of the word occurred in the second chapter of his 1931 book Lo!:[10]

Mostly in this book I shall specialize upon indications that there exists a transportory force that I shall call Teleportation. I shall be accused of having assembled lies, yarns, hoaxes, and superstitions. To some degree I think so, myself. To some degree, I do not. I offer the data.

Cultural references

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Fiction

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Teleportation is a common subject in science fiction literature, film, video games, and television. The use of matter transmitters in science fiction originated at least as early as the 19th century.[11] An early example of scientific teleportation (as opposed to magical or spiritual teleportation) is found in the 1897 novel To Venus in Five Seconds by Fred T. Jane. Jane's protagonist is transported from a strange-machinery-containing gazebo on Earth to planet Venus – hence the title.

The earliest recorded story of a "matter transmitter" was Edward Page Mitchell's "The Man Without a Body" in 1877.[12]

The Catholic Saint Padre Pio has documented miracles of Bilocation including a vision received by Pope John Paul II. This phenomenon has also been reported throughout church history as in the New Testament with Jesus Christ where he was taken to a mountaintop and tempted by Satan.

Live performance

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Teleportation illusions have featured in live performances throughout history, often under the fiction of miracles, psychic phenomenon, or magic. The cups and balls trick has been performed since 3 BC[13] and can involve balls vanishing, reappearing, teleporting and transposing (objects in two locations interchanging places). A common trick of close-up magic is the apparent teleportation of a small object, such as a marked playing card, which can involve sleight-of-hand, misdirection, and pickpocketing. Magic shows were popular entertainments at fairs in the 18th century and moved into permanent theatres in the mid-19th century.[14] Theatres provided greater control of the environment and viewing angles for more elaborate illusions, and teleportation tricks grew in scale and ambition. To increase audience excitement, the teleportation illusion could be conducted under the theme of a predicament escape. Magic shows achieved widespread success during the Golden Age of Magic in the late 19th and early 20th centuries.[15]

Quantum teleportation

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Quantum teleportation is distinct from regular teleportation, as it does not transfer matter from one place to another, but rather transmits the information necessary to prepare a (microscopic) target system in the same quantum state as the source system. The scheme was named quantum "teleportation", because certain properties of the source system are recreated in the target system without any apparent quantum information carrier propagating between the two.

In many cases, such as normal matter at room temperature, the exact quantum state of a system is irrelevant for any practical purpose (because it fluctuates rapidly anyway, it "decoheres"), and the necessary information to recreate the system is classical. In those cases, quantum teleportation may be replaced by the simple transmission of classical information, such as radio communication.

In 1993, Bennett et al[16] proposed that a quantum state of a particle could be transferred to another distant particle, without moving the two particles at all. This is called quantum state teleportation. There are many following theoretical and experimental papers published.[17][18][19]

In 2008, M. Hotta proposed that it may be possible to teleport energy by exploiting quantum energy fluctuations of an entangled vacuum state of a quantum field.[20] In 2023, zero temperature quantum energy teleportation was observed and recorded by Kazuki Ikeda for the first-time across microscopic distances using IBM superconducting computers that are used for quantum computing.[21][22]

In 2014, researcher Ronald Hanson and colleagues from the Technical University Delft in the Netherlands, demonstrated the teleportation of information between two entangled quantumbits three metres apart.[23]

A generalization of quantum mechanics suggests particles could be teleport from one place to another.[24] This is called particle teleportation. With this concept, superconductivity can be viewed as the teleportation of some electrons in the superconductor and superfluidity as the teleportation of some of the atoms in the cellular tube. Further analysis shows that the teleportation time increases with the square root of mass and longer teleportation times require sustained quantum coherence. While particle teleportation may be feasible for an electron, a proton may not be feasible.[25]

Philosophy

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Philosopher Derek Parfit used teleportation in his teletransportation paradox.[26]

See also

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References

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  1. ^ "Historical Terms Glossary". Archived from the original on 14 March 2016. Retrieved 29 December 2016.
  2. ^ Melton, J. Gordon (2008). The Encyclopedia of Religious Phenomena. Detroit: Visible Ink Press. pp. 12–13. ISBN 9781578592098.
  3. ^ "Is Teleportation Possible?". Slate. 23 May 2013. Retrieved 20 December 2022.
  4. ^ "Quantum teleportation is real, but it's not what you think". Popular Science. 19 February 2019. Retrieved 20 December 2022.
  5. ^ "The Hawaiian gazette. (Honolulu [Oahu, Hawaii]) 1865–1918, October 23, 1878, Image 4". loc.gov.
  6. ^ "29 Jun 1878 – The Latest Wonder". nla.gov.au. 29 June 1878.
  7. ^ "Lo!: Part I: 2". Sacred-texts.com. Retrieved 20 March 2014.
  8. ^ "less well-known is the fact that Charles Fort coined the word in 1931" in Rickard, B. and Michell, J. Unexplained Phenomena: a Rough Guide special (Rough Guides, 2000 (ISBN 1-85828-589-5), p. 3)
  9. ^ "Teleportation". Etymology online. Retrieved 7 October 2016.
  10. ^ Mr. X. "Lo!: A Hypertext Edition of Charles Hoy Fort's Book". Resologist.net. Retrieved 20 March 2014.
  11. ^ Matter Transmission in John Clute and, Peter Nichols (ed), The Encyclopedia of Science Fiction, Orbit, 1999 ISBN 1 85723 897 4
  12. ^ "Teleportation in early science fiction". The Worlds of David Darling. Retrieved 4 February 2014.
  13. ^ Macknik, Stephen L. "Penn & Teller's Cups-and-Balls Magic Trick". Scientific American Blog Network. Retrieved 30 April 2020.
  14. ^ "History of Magic". This French site, Magiczoom, has now closed its doors. Archived from the original on 15 May 2006.
  15. ^ Steinmeyer, Jim (2003). Hiding the Elephant. Da Capo Press.
  16. ^ C. H. Bennett, G. Brassard, C. Crépeau, R. Jozsa, A. Peres, W. K. Wootters (1993), Teleporting an Unknown Quantum State via Dual Classical and Einstein–Podolsky–Rosen Channels, Phys. Rev. Lett. 70, 1895–1899.
  17. ^ Bouwmeester, D.; et al. (1997). "Experimental quantum teleportation". Nature. 390 (6660): 575–579. arXiv:1901.11004. Bibcode:1997Natur.390..575B. doi:10.1038/37539. S2CID 4422887.
  18. ^ Werner, Reinhard F. (2001). "All teleportation and dense coding schemes". J. Phys. A: Math. Gen. 34 (35): 7081–7094. arXiv:quant-ph/0003070. Bibcode:2001JPhA...34.7081W. doi:10.1088/0305-4470/34/35/332. S2CID 9684671.
  19. ^ Ren, Ji-Gang; Xu, Ping; Yong, Hai-Lin; Zhang, Liang; Liao, Sheng-Kai; Yin, Juan; Liu, Wei-Yue; Cai, Wen-Qi; Yang, Meng (2017). "Ground-to-satellite quantum teleportation". Nature. 549 (7670): 70–73. arXiv:1707.00934. Bibcode:2017Natur.549...70R. doi:10.1038/nature23675. PMID 28825708. S2CID 4468803.
  20. ^ Hotta, Masahiro. "A PROTOCOL FOR QUANTUM ENERGY DISTRIBUTION". Phys. Lett. A 372 5671 (2008).
  21. ^ Ikeda, Kazuki (2023). "Demonstration of Quantum Energy Teleportation on Superconducting Quantum Hardware". Physical Review Applied. 20 (2): 024051. arXiv:2301.02666. Bibcode:2023PhRvP..20b4051I. doi:10.1103/PhysRevApplied.20.024051.
  22. ^ "First Demonstration of Energy Teleportation". Discover magazine. 16 January 2023.
  23. ^ "Hansonlab demonstrates quantum teleportation". 29 May 2014.
  24. ^ Wei, Yuchuan (29 June 2016). "Comment on "Fractional quantum mechanics" and "Fractional Schrödinger equation"". Physical Review E. 93 (6): 066103. arXiv:1607.01356. Bibcode:2016PhRvE..93f6103W. doi:10.1103/PhysRevE.93.066103. PMID 27415397. S2CID 20010251.
  25. ^ Porras, Miguel A.; Casado-Álvaro, Miguel; Gonzalo, Isabel (12 March 2024). "Teleportation of a quantum particle in a potential via quantum Zeno dynamics". Physical Review A. 109 (3). arXiv:2305.07968. doi:10.1103/PhysRevA.109.032207. ISSN 2469-9926.
  26. ^ Peg Tittle,What If...: Collected Thought Experiments in Philosophy, Routledge, 2016, ISBN 1315509326, pp. 88–89

Further reading

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