SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2750933144> ?p ?o ?g. }

Showing items 1 to 100 of ±124 with 100 items per page.

W2750933144 endingPage "455202" @default.
W2750933144 startingPage "455202" @default.
W2750933144 abstract "The hypothetical mechanism of electric field amplification at contact of positive and negative streamers in a streamer corona up to magnitudes required for the generation of runaway electrons and secondary Bremsstrahlung in the x-ray range, observed in long spark discharges in the open atmosphere, is analyzed. The development of two streamers, moving towards each other in interelectrode gaps of the centimetre range, is numerically simulated at applied voltages from 73 to 250 kV. It is shown that the size of the domain with strong electric field, with intensity sufficient for the thermal electron runaway, is of 1–2 mm. The mean field intensity in this domain increases up to magnitudes of ≈250–280 kV cm−1. The maximum energy, to which electrons are capable of energizing in such field, is in the range of 20–70 keV. However, the electron energy is limited by an extremely small life-time of the strong field domain (less than 20 ps)." @default.
W2750933144 created "2017-09-15" @default.
W2750933144 creator A5000655235 @default.
W2750933144 creator A5087507335 @default.
W2750933144 date "2017-10-20" @default.
W2750933144 modified "2023-09-26" @default.
W2750933144 title "Numerical simulation of electric field enhancement at the contact of positive and negative streamers in relation to the problem of runaway electron generation in lightning and in long laboratory sparks" @default.
W2750933144 cites W1497643740 @default.
W2750933144 cites W1520895626 @default.
W2750933144 cites W1579806921 @default.
W2750933144 cites W1677811442 @default.
W2750933144 cites W1845717846 @default.
W2750933144 cites W1877289588 @default.
W2750933144 cites W1967154457 @default.
W2750933144 cites W1967991657 @default.
W2750933144 cites W1980516703 @default.
W2750933144 cites W1982787827 @default.
W2750933144 cites W1988657389 @default.
W2750933144 cites W2003434123 @default.
W2750933144 cites W2003519726 @default.
W2750933144 cites W2007166031 @default.
W2750933144 cites W2007547945 @default.
W2750933144 cites W2017331754 @default.
W2750933144 cites W2025687595 @default.
W2750933144 cites W2027848768 @default.
W2750933144 cites W2031482512 @default.
W2750933144 cites W2034501757 @default.
W2750933144 cites W2040964681 @default.
W2750933144 cites W2041025227 @default.
W2750933144 cites W2043775795 @default.
W2750933144 cites W2058842945 @default.
W2750933144 cites W2069957429 @default.
W2750933144 cites W2070270811 @default.
W2750933144 cites W2071631246 @default.
W2750933144 cites W2073934438 @default.
W2750933144 cites W2073939263 @default.
W2750933144 cites W2078908805 @default.
W2750933144 cites W2081108495 @default.
W2750933144 cites W2081241061 @default.
W2750933144 cites W2085498600 @default.
W2750933144 cites W2087654640 @default.
W2750933144 cites W2090827107 @default.
W2750933144 cites W2123227412 @default.
W2750933144 cites W2123382928 @default.
W2750933144 cites W2124788483 @default.
W2750933144 cites W2131626092 @default.
W2750933144 cites W2134859255 @default.
W2750933144 cites W2152034584 @default.
W2750933144 cites W2152063554 @default.
W2750933144 cites W2153357396 @default.
W2750933144 cites W2166298309 @default.
W2750933144 cites W2279063708 @default.
W2750933144 cites W2326023733 @default.
W2750933144 cites W2419103435 @default.
W2750933144 cites W2443371299 @default.
W2750933144 cites W2564377801 @default.
W2750933144 cites W2593276708 @default.
W2750933144 cites W2795548769 @default.
W2750933144 cites W3098145699 @default.
W2750933144 cites W3104826745 @default.
W2750933144 cites W4231518105 @default.
W2750933144 cites W4242857314 @default.
W2750933144 doi "https://doi.org/10.1088/1361-6463/aa88fd" @default.
W2750933144 hasPublicationYear "2017" @default.
W2750933144 type Work @default.
W2750933144 sameAs 2750933144 @default.
W2750933144 citedByCount "19" @default.
W2750933144 countsByYear W27509331442017 @default.
W2750933144 countsByYear W27509331442018 @default.
W2750933144 countsByYear W27509331442019 @default.
W2750933144 countsByYear W27509331442020 @default.
W2750933144 countsByYear W27509331442021 @default.
W2750933144 countsByYear W27509331442022 @default.
W2750933144 countsByYear W27509331442023 @default.
W2750933144 crossrefType "journal-article" @default.
W2750933144 hasAuthorship W2750933144A5000655235 @default.
W2750933144 hasAuthorship W2750933144A5087507335 @default.
W2750933144 hasConcept C119599485 @default.
W2750933144 hasConcept C121332964 @default.
W2750933144 hasConcept C127413603 @default.
W2750933144 hasConcept C147120987 @default.
W2750933144 hasConcept C163258240 @default.
W2750933144 hasConcept C25343380 @default.
W2750933144 hasConcept C41008148 @default.
W2750933144 hasConcept C500300565 @default.
W2750933144 hasConcept C57879066 @default.
W2750933144 hasConcept C60799052 @default.
W2750933144 hasConcept C62520636 @default.
W2750933144 hasConcept C69398868 @default.
W2750933144 hasConcept C77088390 @default.
W2750933144 hasConceptScore W2750933144C119599485 @default.
W2750933144 hasConceptScore W2750933144C121332964 @default.
W2750933144 hasConceptScore W2750933144C127413603 @default.
W2750933144 hasConceptScore W2750933144C147120987 @default.
W2750933144 hasConceptScore W2750933144C163258240 @default.
W2750933144 hasConceptScore W2750933144C25343380 @default.
W2750933144 hasConceptScore W2750933144C41008148 @default.
W2750933144 hasConceptScore W2750933144C500300565 @default.