SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2092224708> ?p ?o ?g. }

Showing items 1 to 100 of ±106 with 100 items per page.

W2092224708 endingPage "62" @default.
W2092224708 startingPage "49" @default.
W2092224708 abstract "A model for a surface wave sustained nitrogen discharge accounting in a self-consistent way for electron and heavy particles kinetics and discharge electrodynamics has been developed. The system under analysis is a plasma column produced by a traveling, azimuthally symmetric (m=0 mode) surface wave. The model is based on a set of coupled equations consisting of the electron Boltzmann equation and the rate balance equations for the most important excited species—vibrationally, N2(X 1Σg+, ν), and electronically excited states, N2(A 3Σu+, a′ Σu−, B 3Πg, C 3Πu, a 1Πg)—and charged particles (e, N2+, N4−) in the discharge. Electron collisions with nitrogen molecules of the first and the second kind and electron–electron collisions are accounted for in the Boltzmann equation. The field strength necessary for steady-state operation of the discharge is obtained from the balance between the total rates of ionization (including direct, stepwise, and associative ionization) and of electronic losses (due to diffusion to the wall and bulk recombination). The transfer of wave power to the discharge occurs through collisional processes, thus the set of equations is closed by an ordinary differential equation (stemming from basic electrodynamical relations) which associates the axial gradient of the electron density to the wave attenuation. As a result, a self-consistent interdependence between wave propagation and discharge characteristics is obtained over the whole plasma column. The axial profile of the gas temperature and the initial value of the electron density at the position of the wave launcher are used as input parameters. The model determines the axial structure of the discharge—axial variations of the electron energy distribution function and its moments, the vibrational distribution function of the electronic ground state, and the densities of the most important electronically excited states and positive ions—consistently with the electric field and the surface wave dispersion characteristics. A spatially resolved experimental investigation of the electron energy distribution function, the gas and the vibrational temperatures, and the population densities of some electronically excited states along with wave propagation characteristics measurements provides a verification of the model. Strong correlation between different plasma balances, governing the discharge production, and discharge electrodynamics—the basis of surface-wave discharge physics—has been demonstrated both theoretically and experimentally." @default.
W2092224708 created "2016-06-24" @default.
W2092224708 creator A5021991316 @default.
W2092224708 creator A5027625580 @default.
W2092224708 creator A5072356344 @default.
W2092224708 creator A5088925287 @default.
W2092224708 date "1999-01-01" @default.
W2092224708 modified "2023-10-14" @default.
W2092224708 title "On the axial structure of a nitrogen surface wave sustained discharge: Theory and experiment" @default.
W2092224708 cites W1522163468 @default.
W2092224708 cites W1641330758 @default.
W2092224708 cites W1970150383 @default.
W2092224708 cites W1975651731 @default.
W2092224708 cites W1981355260 @default.
W2092224708 cites W1991785415 @default.
W2092224708 cites W1992714659 @default.
W2092224708 cites W1993361798 @default.
W2092224708 cites W1997022634 @default.
W2092224708 cites W1999955330 @default.
W2092224708 cites W2002608435 @default.
W2092224708 cites W2013626016 @default.
W2092224708 cites W2017993228 @default.
W2092224708 cites W2019277133 @default.
W2092224708 cites W2023197671 @default.
W2092224708 cites W2026420469 @default.
W2092224708 cites W2044071169 @default.
W2092224708 cites W2053972454 @default.
W2092224708 cites W2068674765 @default.
W2092224708 cites W2074703947 @default.
W2092224708 cites W2076260101 @default.
W2092224708 cites W2076863057 @default.
W2092224708 cites W2078539526 @default.
W2092224708 cites W2078815419 @default.
W2092224708 cites W2080317684 @default.
W2092224708 cites W2081162824 @default.
W2092224708 cites W2081188848 @default.
W2092224708 cites W2088802480 @default.
W2092224708 cites W2090249248 @default.
W2092224708 cites W2093090387 @default.
W2092224708 cites W2102078994 @default.
W2092224708 cites W2125204239 @default.
W2092224708 cites W2140419434 @default.
W2092224708 cites W4236641648 @default.
W2092224708 doi "https://doi.org/10.1063/1.369480" @default.
W2092224708 hasPublicationYear "1999" @default.
W2092224708 type Work @default.
W2092224708 sameAs 2092224708 @default.
W2092224708 citedByCount "49" @default.
W2092224708 countsByYear W20922247082012 @default.
W2092224708 countsByYear W20922247082013 @default.
W2092224708 countsByYear W20922247082014 @default.
W2092224708 countsByYear W20922247082019 @default.
W2092224708 countsByYear W20922247082020 @default.
W2092224708 countsByYear W20922247082021 @default.
W2092224708 crossrefType "journal-article" @default.
W2092224708 hasAuthorship W2092224708A5021991316 @default.
W2092224708 hasAuthorship W2092224708A5027625580 @default.
W2092224708 hasAuthorship W2092224708A5072356344 @default.
W2092224708 hasAuthorship W2092224708A5088925287 @default.
W2092224708 hasConcept C121332964 @default.
W2092224708 hasConcept C125485243 @default.
W2092224708 hasConcept C1276947 @default.
W2092224708 hasConcept C145148216 @default.
W2092224708 hasConcept C147120987 @default.
W2092224708 hasConcept C165995430 @default.
W2092224708 hasConcept C181500209 @default.
W2092224708 hasConcept C184779094 @default.
W2092224708 hasConcept C185592680 @default.
W2092224708 hasConcept C198291218 @default.
W2092224708 hasConcept C62520636 @default.
W2092224708 hasConcept C82706917 @default.
W2092224708 hasConcept C84174578 @default.
W2092224708 hasConceptScore W2092224708C121332964 @default.
W2092224708 hasConceptScore W2092224708C125485243 @default.
W2092224708 hasConceptScore W2092224708C1276947 @default.
W2092224708 hasConceptScore W2092224708C145148216 @default.
W2092224708 hasConceptScore W2092224708C147120987 @default.
W2092224708 hasConceptScore W2092224708C165995430 @default.
W2092224708 hasConceptScore W2092224708C181500209 @default.
W2092224708 hasConceptScore W2092224708C184779094 @default.
W2092224708 hasConceptScore W2092224708C185592680 @default.
W2092224708 hasConceptScore W2092224708C198291218 @default.
W2092224708 hasConceptScore W2092224708C62520636 @default.
W2092224708 hasConceptScore W2092224708C82706917 @default.
W2092224708 hasConceptScore W2092224708C84174578 @default.
W2092224708 hasIssue "1" @default.
W2092224708 hasLocation W20922247081 @default.
W2092224708 hasOpenAccess W2092224708 @default.
W2092224708 hasPrimaryLocation W20922247081 @default.
W2092224708 hasRelatedWork W1972241544 @default.
W2092224708 hasRelatedWork W1983168963 @default.
W2092224708 hasRelatedWork W2013832838 @default.
W2092224708 hasRelatedWork W2026648602 @default.
W2092224708 hasRelatedWork W2070504660 @default.
W2092224708 hasRelatedWork W2071355779 @default.
W2092224708 hasRelatedWork W2130556351 @default.
W2092224708 hasRelatedWork W2376604896 @default.
W2092224708 hasRelatedWork W2005620834 @default.