Ruairi Posted June 30, 2017 Posted June 30, 2017 I have been doing a bit of reading into particle physics and quantum theory lately and I'm having a bit of trouble understanding what a virtual particle and how they are allowed if they break the law of conservation of energy.
imatfaal Posted June 30, 2017 Posted June 30, 2017 There is not much that is forbidden for a virtual particle Here is the good Doctor Matt Strassler https://profmattstrassler.com/articles-and-posts/particle-physics-basics/virtual-particles-what-are-they/ They are "off-shell" and do not have to obey many of the laws that real particles do. https://en.wikipedia.org/wiki/On_shell_and_off_shell Note that Noether's theorem is the mathematical treatment of conservation laws / invariance under transformation
StringJunky Posted June 30, 2017 Posted June 30, 2017 From what I understand, from Mordred, is that it is a particle that, individually, has no action on other particles because its energy is too low; it needs to be a full quantum or more but they are actionable collectively.
Mordred Posted June 30, 2017 Posted June 30, 2017 (edited) From what I understand, from Mordred, is that it is a particle that, individually, has no action on other particles because its energy is too low; it needs to be a full quantum or more but they are actionable collectively. http://www.scienceforums.net/topic/106004-useful-fundamental-formulas-of-qft/#entry991940 Has the QFT breakdown though I hadn't gotten to describe how that post later applies to the Feymann diagrams under S matrix. The VP being the internal lines, real particles the external lines on Feymann diagrams. This Hobson paper relates though not specifically VP, but particles as field excitations. https://arxiv.org/pdf/1204.4616.pdf Edited June 30, 2017 by Mordred
StringJunky Posted June 30, 2017 Posted June 30, 2017 (edited) http://www.scienceforums.net/topic/106004-useful-fundamental-formulas-of-qft/#entry991940 Has the QFT breakdown though I hadn't gotten to describe how that post later applies to the Feymann diagrams under S matrix. The VP being the internal lines, real particles the external lines on Feymann diagrams. This Hobson paper relates though not specifically VP, but particles as field excitations. https://arxiv.org/pdf/1204.4616.pdf But as a super-condensed neophyte description was it ok? If you had to write a one line description to a novice, how would you put it? Edited June 30, 2017 by StringJunky
Mordred Posted June 30, 2017 Posted June 30, 2017 Your shortened anecdote is fine, I would end up with a similar statement.
StringJunky Posted July 1, 2017 Posted July 1, 2017 (edited) Your shortened anecdote is fine, I would end up with a similar statement. Super. You are very good at posting on the appropriate level for a given type of audience. Edited July 1, 2017 by StringJunky
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