SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4200494039> ?p ?o ?g. }

Showing items 1 to 100 of ±117 with 100 items per page.

W4200494039 endingPage "287" @default.
W4200494039 startingPage "287" @default.
W4200494039 abstract "Abstract Using the theory of relativistic mean-field effective interactions, the influences of superstrong magnetic fields (SMFs) on electron Fermi energy, binding energy per nucleus and single-particle level structure are discussed in super-Chandrasekhar magnetic white dwarfs. Based on the relativistical SMFs theory model of Potekhin et al., the electron chemical potential is corrected in SMFs, and the electron capture (EC) of iron group nuclei is investigated by using the Shell-Model Monte Carlo method and Random Phase Approximation theory. The EC rates can increase by more than three orders of magnitude due to the increase of the electron Fermi energy and the change of single-particle level structure by SMFs. However, the EC rates can decrease by more than four orders of magnitude due to increase of the nuclei binding energy by SMFs. We compare our results with those of FFNs (Fuller et al.), AUFDs (Aufderheide et al.) and Nabi (Nabi et al.). Our rates are higher by about four orders of magnitude than those of FFN, AUFD and Nabi due to SMFs. Our study may have important reference value for subsequent studies of the instability, mass radius relationship, and thermal and magnetic evolution of super-Chandrasekhar magnetic white dwarfs." @default.
W4200494039 created "2021-12-31" @default.
W4200494039 creator A5062665642 @default.
W4200494039 creator A5077322975 @default.
W4200494039 date "2021-12-01" @default.
W4200494039 modified "2023-10-14" @default.
W4200494039 title "Iron group nuclei electron capture in super-Chandrasekhar superstrong magnetic white dwarfs" @default.
W4200494039 cites W1550796814 @default.
W4200494039 cites W1955683223 @default.
W4200494039 cites W1964809169 @default.
W4200494039 cites W1965802956 @default.
W4200494039 cites W1975950228 @default.
W4200494039 cites W1992463353 @default.
W4200494039 cites W2007779595 @default.
W4200494039 cites W2007951420 @default.
W4200494039 cites W2012318631 @default.
W4200494039 cites W2016480013 @default.
W4200494039 cites W2016578072 @default.
W4200494039 cites W2017592525 @default.
W4200494039 cites W2028739606 @default.
W4200494039 cites W2032473379 @default.
W4200494039 cites W2039806538 @default.
W4200494039 cites W2039969635 @default.
W4200494039 cites W2045517183 @default.
W4200494039 cites W2062038481 @default.
W4200494039 cites W2062322544 @default.
W4200494039 cites W2068593908 @default.
W4200494039 cites W2069630601 @default.
W4200494039 cites W2069681890 @default.
W4200494039 cites W2070285076 @default.
W4200494039 cites W2070440519 @default.
W4200494039 cites W2078534771 @default.
W4200494039 cites W2080393620 @default.
W4200494039 cites W2081239524 @default.
W4200494039 cites W2084561584 @default.
W4200494039 cites W2087952954 @default.
W4200494039 cites W2101248905 @default.
W4200494039 cites W2102787752 @default.
W4200494039 cites W2143225256 @default.
W4200494039 cites W2148303518 @default.
W4200494039 cites W2157653757 @default.
W4200494039 cites W2161517877 @default.
W4200494039 cites W2170191728 @default.
W4200494039 cites W2172169673 @default.
W4200494039 cites W2462900910 @default.
W4200494039 cites W2542822760 @default.
W4200494039 cites W2611196214 @default.
W4200494039 cites W2770314431 @default.
W4200494039 cites W2773811640 @default.
W4200494039 cites W2776893052 @default.
W4200494039 cites W2787311827 @default.
W4200494039 cites W2962942188 @default.
W4200494039 cites W3099994374 @default.
W4200494039 cites W3101369108 @default.
W4200494039 cites W3102108345 @default.
W4200494039 cites W3103793481 @default.
W4200494039 cites W3106458186 @default.
W4200494039 cites W3124238179 @default.
W4200494039 cites W3178495170 @default.
W4200494039 cites W4292328865 @default.
W4200494039 cites W3099523084 @default.
W4200494039 doi "https://doi.org/10.1088/1674-4527/21/11/287" @default.
W4200494039 hasPublicationYear "2021" @default.
W4200494039 type Work @default.
W4200494039 citedByCount "2" @default.
W4200494039 countsByYear W42004940392023 @default.
W4200494039 crossrefType "journal-article" @default.
W4200494039 hasAuthorship W4200494039A5062665642 @default.
W4200494039 hasAuthorship W4200494039A5077322975 @default.
W4200494039 hasConcept C115260700 @default.
W4200494039 hasConcept C121332964 @default.
W4200494039 hasConcept C147120987 @default.
W4200494039 hasConcept C150846664 @default.
W4200494039 hasConcept C178635117 @default.
W4200494039 hasConcept C184779094 @default.
W4200494039 hasConcept C185544564 @default.
W4200494039 hasConcept C197445014 @default.
W4200494039 hasConcept C38652104 @default.
W4200494039 hasConcept C41008148 @default.
W4200494039 hasConcept C44870925 @default.
W4200494039 hasConcept C62520636 @default.
W4200494039 hasConcept C67576285 @default.
W4200494039 hasConcept C93282013 @default.
W4200494039 hasConceptScore W4200494039C115260700 @default.
W4200494039 hasConceptScore W4200494039C121332964 @default.
W4200494039 hasConceptScore W4200494039C147120987 @default.
W4200494039 hasConceptScore W4200494039C150846664 @default.
W4200494039 hasConceptScore W4200494039C178635117 @default.
W4200494039 hasConceptScore W4200494039C184779094 @default.
W4200494039 hasConceptScore W4200494039C185544564 @default.
W4200494039 hasConceptScore W4200494039C197445014 @default.
W4200494039 hasConceptScore W4200494039C38652104 @default.
W4200494039 hasConceptScore W4200494039C41008148 @default.
W4200494039 hasConceptScore W4200494039C44870925 @default.
W4200494039 hasConceptScore W4200494039C62520636 @default.
W4200494039 hasConceptScore W4200494039C67576285 @default.
W4200494039 hasConceptScore W4200494039C93282013 @default.
W4200494039 hasIssue "11" @default.