Communication physics

Encoding, sending via a channel, receiving, and decoding are necessary parts of communication.

Communication physics is one of the applied branches of physics. It deals with various kinds of communication systems.^[1] These can range from basic ideas such as mobile phone communication to quantum communication via quantum entanglement.^[2] Communication physics is also a journal edition created in 2018 published by Nature Research that aims to publish research that involves a different way of thinking in the research field.^[3]

Applications

Communication physics aims to study and explain how a communication system works. This can be applied in a hard science way via Computer Communication or in the way of how people communicate.^[1]

An example of communication physics is how computers can transmit and receive data through networks. This would also deal with explaining how these devices encode and decode messages.

References

↑ ^1.0 ^1.1 Sostrin, Jesse (2013), Sostrin, Jesse, ed., "Communication Physics: What Holds Patterns Together" (in en), Re-Making Communication at Work (New York: Palgrave Macmillan US): pp. 81–87, doi:10.1057/9781137332769_8, ISBN 978-1-137-33276-9, https://doi.org/10.1057/9781137332769_8, retrieved 2023-03-26
↑ Smart, Scott E.; Hu, Zixuan; Kais, Sabre; Mazziotti, David A. (2022-01-25). "Relaxation of stationary states on a quantum computer yields a unique spectroscopic fingerprint of the computer’s noise" (in en). Communications Physics 5 (1): 1–7. doi:10.1038/s42005-022-00803-8. ISSN 2399-3650. https://www.nature.com/articles/s42005-022-00803-8.
↑ "Introducing Communications Physics" (in en). Communications Physics 1 (1): 1–2. 2018-02-22. doi:10.1038/s42005-018-0008-5. ISSN 2399-3650. https://www.nature.com/articles/s42005-018-0008-5.

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[:0-1] 1.0 ^1.1 Sostrin, Jesse (2013), Sostrin, Jesse, ed., "Communication Physics: What Holds Patterns Together" (in en), Re-Making Communication at Work (New York: Palgrave Macmillan US): pp. 81–87, doi:10.1057/9781137332769_8, ISBN 978-1-137-33276-9, https://doi.org/10.1057/9781137332769_8, retrieved 2023-03-26

[2] Smart, Scott E.; Hu, Zixuan; Kais, Sabre; Mazziotti, David A. (2022-01-25). "Relaxation of stationary states on a quantum computer yields a unique spectroscopic fingerprint of the computer’s noise" (in en). Communications Physics 5 (1): 1–7. doi:10.1038/s42005-022-00803-8. ISSN 2399-3650. https://www.nature.com/articles/s42005-022-00803-8.

[3] "Introducing Communications Physics" (in en). Communications Physics 1 (1): 1–2. 2018-02-22. doi:10.1038/s42005-018-0008-5. ISSN 2399-3650. https://www.nature.com/articles/s42005-018-0008-5.

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v t e Communication studies
History Outline
Topics and terminology	Biocommunication Broadcasting Communication Computer-mediated communication Conversation History of communication Information Intercultural / Interpersonal / Intrapersonal communication Journalism Mass media Meaning Media ecology Meta-communication Models of communication New media Nonverbal communication Propaganda Reading Speech Symbol Telecommunication Text and conversation theory Writing
Subfields	Communication design Communication theory Communicology Crisis communication Cross-cultural communication Development communication Discourse analysis Environmental communication Global communication Health communication International communication Mass communication Media studies Mediated cross-border communication Organizational communication Political communication Risk communication Science communication Technical communication Visual communication Closed-loop communication
Scholars	Adorno Barthes Bateson Benjamin Burke Castells Chomsky Craig Fisher Flusser Gasset Gerbner Goffman Habermas Horkheimer Huxley Innis Jakobson Janis Johnson Kincaid Lippman Luhmann Marcuse McLuhan Mead Morgan Ong Packard Peirce Postman Quebral Richards Rogers Schramm Tankard Tannen Wertheimer
Category

Communication physics

Topic: Physics

Applications

See also

References