FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1639696768> ?p ?o ?g. }

• W1639696768 abstract "A photon is modeled by an uncharged superluminal quantum moving at 1.414c along an open 45-degree helical trajectory with radius R = {lambda}/2{pi} (where {lambda} is the helical pitch or wavelength). A mostly superluminal spatial model of an electron is composed of a charged pointlike quantum circulating at an extremely high frequency ( 2.5 x 1020 hz) in a closed, double-looped hehcal trajectory whose helical pitch is one Compton wavelength h/mc. The quantum has energy and momentum but not rest mass, so its speed is not limited by c. sThe quantum's speed is superluminal 57% of the time and subluminal 43% of the time, passing through c twice in each trajectory cycle. The quantum's maximum speed in the electron's rest frame is 2.515c and its minimum speed is .707c. The electron model's helical trajectory parameters are selected to produce the electron's spin ({Dirac_h}/2{pi})/2 and approximate (without small QED corrections) magnetic moment e({Dirac_h}/2{pi})/2m (the Bohr magneton {mu}B) as well as its Dirac equation-related 'jittery motion' angular frequency 2mc2/({Dirac_h}/2{pi}), amplitude ({Dirac_h}/2{pi})/2mc and internal speed c. The two possible helicities of the electron model correspond to the electron and the positron. With these models, an electron is like a closed circulating photon. Themore » electron's inertia is proposed to be related to the electron model's circulating internal Compton momentum mc. The internal superluminalily of the photon model, the internal superluminahty/subluminality of the electron model, and the proposed approach to the electron's inertia as ''momentum at rest'' within the electron, could be relevant to possible mechanisms of superluminal communication and transportation.« less" @default.
• W1639696768 created "2016-06-24" @default.
• W1639696768 creator A5077521670 @default.
• W1639696768 date "2007-01-01" @default.
• W1639696768 modified "2023-09-23" @default.
• W1639696768 title "FTL Quantum Models of the Photon and the Electron" @default.
• W1639696768 cites W1514271158 @default.
• W1639696768 cites W1980160396 @default.
• W1639696768 cites W1998183287 @default.
• W1639696768 cites W2036626906 @default.
• W1639696768 cites W2060526122 @default.
• W1639696768 cites W2066703109 @default.
• W1639696768 cites W2083227386 @default.
• W1639696768 cites W2127865535 @default.
• W1639696768 cites W2150486944 @default.
• W1639696768 cites W2159957957 @default.
• W1639696768 cites W3010848109 @default.
• W1639696768 cites W3099325500 @default.
• W1639696768 cites W3106517257 @default.
• W1639696768 doi "https://doi.org/10.1063/1.2437555" @default.
• W1639696768 hasPublicationYear "2007" @default.
• W1639696768 type Work @default.
• W1639696768 sameAs 1639696768 @default.
• W1639696768 citedByCount "6" @default.
• W1639696768 countsByYear W16396967682013 @default.
• W1639696768 countsByYear W16396967682014 @default.
• W1639696768 countsByYear W16396967682015 @default.
• W1639696768 crossrefType "proceedings-article" @default.
• W1639696768 hasAuthorship W1639696768A5077521670 @default.
• W1639696768 hasConcept C10138342 @default.
• W1639696768 hasConcept C121332964 @default.
• W1639696768 hasConcept C144429999 @default.
• W1639696768 hasConcept C147120987 @default.
• W1639696768 hasConcept C159317903 @default.
• W1639696768 hasConcept C162324750 @default.
• W1639696768 hasConcept C184779094 @default.
• W1639696768 hasConcept C186453547 @default.
• W1639696768 hasConcept C2777293921 @default.
• W1639696768 hasConcept C3079626 @default.
• W1639696768 hasConcept C33024259 @default.
• W1639696768 hasConcept C37387333 @default.
• W1639696768 hasConcept C51493423 @default.
• W1639696768 hasConcept C60718061 @default.
• W1639696768 hasConcept C61039578 @default.
• W1639696768 hasConcept C61203554 @default.
• W1639696768 hasConcept C62520636 @default.
• W1639696768 hasConcept C82601208 @default.
• W1639696768 hasConcept C98444146 @default.
• W1639696768 hasConceptScore W1639696768C10138342 @default.
• W1639696768 hasConceptScore W1639696768C121332964 @default.
• W1639696768 hasConceptScore W1639696768C144429999 @default.
• W1639696768 hasConceptScore W1639696768C147120987 @default.
• W1639696768 hasConceptScore W1639696768C159317903 @default.
• W1639696768 hasConceptScore W1639696768C162324750 @default.
• W1639696768 hasConceptScore W1639696768C184779094 @default.
• W1639696768 hasConceptScore W1639696768C186453547 @default.
• W1639696768 hasConceptScore W1639696768C2777293921 @default.
• W1639696768 hasConceptScore W1639696768C3079626 @default.
• W1639696768 hasConceptScore W1639696768C33024259 @default.
• W1639696768 hasConceptScore W1639696768C37387333 @default.
• W1639696768 hasConceptScore W1639696768C51493423 @default.
• W1639696768 hasConceptScore W1639696768C60718061 @default.
• W1639696768 hasConceptScore W1639696768C61039578 @default.
• W1639696768 hasConceptScore W1639696768C61203554 @default.
• W1639696768 hasConceptScore W1639696768C62520636 @default.
• W1639696768 hasConceptScore W1639696768C82601208 @default.
• W1639696768 hasConceptScore W1639696768C98444146 @default.
• W1639696768 hasLocation W16396967681 @default.
• W1639696768 hasOpenAccess W1639696768 @default.
• W1639696768 hasPrimaryLocation W16396967681 @default.
• W1639696768 hasRelatedWork W1971882133 @default.
• W1639696768 hasRelatedWork W1974058833 @default.
• W1639696768 hasRelatedWork W2005580060 @default.
• W1639696768 hasRelatedWork W2062458550 @default.
• W1639696768 hasRelatedWork W2074511981 @default.
• W1639696768 hasRelatedWork W223874624 @default.
• W1639696768 hasRelatedWork W232813506 @default.
• W1639696768 hasRelatedWork W2560195512 @default.
• W1639696768 hasRelatedWork W2916910586 @default.
• W1639696768 hasRelatedWork W827604132 @default.
• W1639696768 isParatext "false" @default.
• W1639696768 isRetracted "false" @default.
• W1639696768 magId "1639696768" @default.
• W1639696768 workType "article" @default.