SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2016194479> ?p ?o ?g. }

Showing items 1 to 100 of ±122 with 100 items per page.

W2016194479 endingPage "6494" @default.
W2016194479 startingPage "6483" @default.
W2016194479 abstract "Phonons in a metal have a finite lifetime due to the emission of electron-hole pairs. This process leads to an electron-phonon contribution ${W}_{mathrm{ep}}^{p}$ to the thermal resistance, which limits the lattice thermal conductivity ${ensuremath{kappa}}_{p}$. We present a summary of the available experimental data on ${W}_{mathrm{ep}}^{p}$, emphasizing uncertainties and contrasting results from different types of experiments. Methods of obtaining better data are suggested. We show that the available data are in fair agreement with a simple theoretical estimate $mathrm{lim}(Tensuremath{rightarrow}O){W}_{mathrm{ep}}^{p}{(frac{T}{{ensuremath{theta}}_{D}})}^{2}=0.42 {ensuremath{Omega}}_{a}^{frac{1}{3}}Nensuremath{lambda}$(K cm/W), where ${ensuremath{Omega}}_{a}$ is the atomic volume in ${mathrm{AA{}}}^{3}$, $N$ is the Fermi-energy density of states (1 spin) in states/eV, and $ensuremath{lambda}$ is the electron-phonon mass enhancement. The fact that most of the experimental points fall below this estimate is probably the result of anisotropy and mode dependence of the electron-phonon coupling." @default.
W2016194479 created "2016-06-24" @default.
W2016194479 creator A5007951524 @default.
W2016194479 creator A5061696264 @default.
W2016194479 date "1978-12-15" @default.
W2016194479 modified "2023-09-27" @default.
W2016194479 title "Electron-phonon interaction and lattice thermal conductivity" @default.
W2016194479 cites W1423825263 @default.
W2016194479 cites W1963486203 @default.
W2016194479 cites W1967769303 @default.
W2016194479 cites W1973133337 @default.
W2016194479 cites W1974618633 @default.
W2016194479 cites W1976046550 @default.
W2016194479 cites W1976348668 @default.
W2016194479 cites W1979021742 @default.
W2016194479 cites W1980225695 @default.
W2016194479 cites W1980965339 @default.
W2016194479 cites W1981345957 @default.
W2016194479 cites W1986311275 @default.
W2016194479 cites W1989857721 @default.
W2016194479 cites W1991435338 @default.
W2016194479 cites W1993025209 @default.
W2016194479 cites W1993296962 @default.
W2016194479 cites W1996810231 @default.
W2016194479 cites W2000127838 @default.
W2016194479 cites W2001477829 @default.
W2016194479 cites W2002634376 @default.
W2016194479 cites W2003077978 @default.
W2016194479 cites W2012359329 @default.
W2016194479 cites W2012786635 @default.
W2016194479 cites W2018766007 @default.
W2016194479 cites W2023003412 @default.
W2016194479 cites W2024221073 @default.
W2016194479 cites W2029741576 @default.
W2016194479 cites W2039155244 @default.
W2016194479 cites W2043209861 @default.
W2016194479 cites W2044119426 @default.
W2016194479 cites W2054424377 @default.
W2016194479 cites W2054443784 @default.
W2016194479 cites W2057360443 @default.
W2016194479 cites W2060971510 @default.
W2016194479 cites W2062580286 @default.
W2016194479 cites W2064064599 @default.
W2016194479 cites W2069587195 @default.
W2016194479 cites W2071173302 @default.
W2016194479 cites W2071814198 @default.
W2016194479 cites W2072522903 @default.
W2016194479 cites W2074031395 @default.
W2016194479 cites W2074100582 @default.
W2016194479 cites W2076661734 @default.
W2016194479 cites W2078067554 @default.
W2016194479 cites W2080840670 @default.
W2016194479 cites W2084026640 @default.
W2016194479 cites W2089967172 @default.
W2016194479 cites W2126174652 @default.
W2016194479 cites W2135330206 @default.
W2016194479 cites W2161599513 @default.
W2016194479 cites W2171001433 @default.
W2016194479 cites W4205684219 @default.
W2016194479 cites W2074233451 @default.
W2016194479 doi "https://doi.org/10.1103/physrevb.18.6483" @default.
W2016194479 hasPublicationYear "1978" @default.
W2016194479 type Work @default.
W2016194479 sameAs 2016194479 @default.
W2016194479 citedByCount "60" @default.
W2016194479 countsByYear W20161944792012 @default.
W2016194479 countsByYear W20161944792014 @default.
W2016194479 countsByYear W20161944792015 @default.
W2016194479 countsByYear W20161944792016 @default.
W2016194479 countsByYear W20161944792017 @default.
W2016194479 countsByYear W20161944792018 @default.
W2016194479 countsByYear W20161944792019 @default.
W2016194479 countsByYear W20161944792020 @default.
W2016194479 countsByYear W20161944792021 @default.
W2016194479 countsByYear W20161944792022 @default.
W2016194479 countsByYear W20161944792023 @default.
W2016194479 crossrefType "journal-article" @default.
W2016194479 hasAuthorship W2016194479A5007951524 @default.
W2016194479 hasAuthorship W2016194479A5061696264 @default.
W2016194479 hasConcept C121332964 @default.
W2016194479 hasConcept C147120987 @default.
W2016194479 hasConcept C24169881 @default.
W2016194479 hasConcept C24890656 @default.
W2016194479 hasConcept C26873012 @default.
W2016194479 hasConcept C2778113609 @default.
W2016194479 hasConcept C2779557605 @default.
W2016194479 hasConcept C2781204021 @default.
W2016194479 hasConcept C62520636 @default.
W2016194479 hasConcept C85725439 @default.
W2016194479 hasConcept C97346530 @default.
W2016194479 hasConceptScore W2016194479C121332964 @default.
W2016194479 hasConceptScore W2016194479C147120987 @default.
W2016194479 hasConceptScore W2016194479C24169881 @default.
W2016194479 hasConceptScore W2016194479C24890656 @default.
W2016194479 hasConceptScore W2016194479C26873012 @default.
W2016194479 hasConceptScore W2016194479C2778113609 @default.
W2016194479 hasConceptScore W2016194479C2779557605 @default.
W2016194479 hasConceptScore W2016194479C2781204021 @default.