Non-Maxwellian electromagnetism in astrophysics
Space applications at low radio frequencies
978-613-7-34411-8
6137344118
272
2018-05-24
74,90 €
eng
https://images.our-assets.com/cover/230x230/9786137344118.jpg
https://images.our-assets.com/fullcover/230x230/9786137344118.jpg
https://images.our-assets.com/cover/2000x/9786137344118.jpg
https://images.our-assets.com/fullcover/2000x/9786137344118.jpg
The universe is largely observed with electromagnetic signals – supposedly Maxwellian – though the gravitational wave window was just unbarred. Meanwhile, cosmology is since long confronted with an universe for 96% dark and unknown. Thus, it is pertinent for fundamental physics to start a theoretical and experimental verification of electromagnetism, and its photon messenger. The study discusses nonMaxwellian theories, focusing on testable effects. We deal with a range of applications and assess how alternative electromagnetic theories are helpful. We revise the most notable theories, either non-linear or massive. In the former class, for analysis of the self-force, we consider the radiation of an uniformly accelerating Born-Infeld charge; in the Heisenberg-Euler theory, we find a frequency shift induced by an overcritical magnetic dipole, associated to a magnetar. Being the photon the only massless particle in the Standard Model (SM), we explore SM extensions.
https://www.morebooks.shop/books/de/published_by/lap-lambert-academic-publishing/47/products
Physik, Astronomie
https://www.morebooks.shop/store/de/book/non-maxwellian-electromagnetism-in-astrophysics/isbn/978-613-7-34411-8