SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2089126390> ?p ?o ?g. }

Showing items 1 to 100 of ±139 with 100 items per page.

W2089126390 endingPage "12218" @default.
W2089126390 startingPage "12207" @default.
W2089126390 abstract "Nonradiative bimolecular recombination of photocarriers in room-temperature $aensuremath{-}mathrm{S}mathrm{i}:mathrm{H}$ films was studied as a function of the photocarrier density and excitation energy, using ultrafast laser spectroscopy over the range of 150 fs to 4 ns. It is demonstrated that for excitation with photons whose energy exceeds the optical gap of $aensuremath{-}mathrm{S}mathrm{i}:mathrm{H}$, 1.7 eV, the time evolution of transient absorbance (detected at 1.5--1.6 eV) depends only on the initial density ${N}_{mathrm{ex}}$ of the photocarriers $(>{10}^{18}{mathrm{cm}}^{mathrm{ensuremath{-}}3}).$ For ${N}_{mathrm{ex}}ensuremath{sim}5ifmmodetimeselsetexttimesfi{}{10}^{18}$ to $2ifmmodetimeselsetexttimesfi{}{10}^{20}{mathrm{cm}}^{mathrm{ensuremath{-}}3},$ the bimolecular decay of the photocarriers is bimodal: In the first few picoseconds the decay kinetics are controlled by recombination and trapping of free carriers, whereas at later delay times the kinetics are controlled by intraband migration of the trapped charges and their recombination with thermally emitted free carriers. An analysis of the decay kinetics in the framework of the multiple-trapping model (which included mesoscopic nonuniformity of the photocarrier generation) gave the rate constants of $2.3ifmmodetimeselsetexttimesfi{}{10}^{ensuremath{-}8}$ and $6ifmmodetimeselsetexttimesfi{}{10}^{ensuremath{-}9}{mathrm{cm}}^{mathrm{ensuremath{-}}3}/mathrm{s}$ for the fast and slow components of the recombination kinetics, respectively. This bimodality accounts for a considerable spread of bimolecular rate constants found in the literature. Our results seem to be incompatible with the previously suggested models of Auger process in undoped $aensuremath{-}mathrm{S}mathrm{i}:mathrm{H}$. This work emphasizes the need for further theoretical understanding of the recombination mechanisms involved. We argue that in the low-density regime, the direct bimolecular recombination of the excess charges can be a ``rare event'' that causes the Staebler-Wronsky effect." @default.
W2089126390 created "2016-06-24" @default.
W2089126390 creator A5083014857 @default.
W2089126390 creator A5090364322 @default.
W2089126390 date "1998-05-15" @default.
W2089126390 modified "2023-09-25" @default.
W2089126390 title "Ultrafast charge recombination in undoped amorphous hydrogenated silicon" @default.
W2089126390 cites W1563854601 @default.
W2089126390 cites W1973010613 @default.
W2089126390 cites W1974422516 @default.
W2089126390 cites W1975980425 @default.
W2089126390 cites W1984003882 @default.
W2089126390 cites W1987444465 @default.
W2089126390 cites W1990257725 @default.
W2089126390 cites W1991688907 @default.
W2089126390 cites W1994391720 @default.
W2089126390 cites W1995499285 @default.
W2089126390 cites W1996600128 @default.
W2089126390 cites W1997420845 @default.
W2089126390 cites W1997641880 @default.
W2089126390 cites W1998907273 @default.
W2089126390 cites W1999517740 @default.
W2089126390 cites W1999633666 @default.
W2089126390 cites W2000368317 @default.
W2089126390 cites W2001104670 @default.
W2089126390 cites W2004076340 @default.
W2089126390 cites W2004130109 @default.
W2089126390 cites W2004636901 @default.
W2089126390 cites W2006071870 @default.
W2089126390 cites W2009743046 @default.
W2089126390 cites W2010624450 @default.
W2089126390 cites W2012376162 @default.
W2089126390 cites W2021382754 @default.
W2089126390 cites W2025169140 @default.
W2089126390 cites W2030666124 @default.
W2089126390 cites W2030703285 @default.
W2089126390 cites W2032885581 @default.
W2089126390 cites W2032972234 @default.
W2089126390 cites W2040798218 @default.
W2089126390 cites W2046722425 @default.
W2089126390 cites W2047778112 @default.
W2089126390 cites W2052026241 @default.
W2089126390 cites W2052142551 @default.
W2089126390 cites W2052573147 @default.
W2089126390 cites W2052690308 @default.
W2089126390 cites W2052997140 @default.
W2089126390 cites W2054907766 @default.
W2089126390 cites W2055025749 @default.
W2089126390 cites W2056497304 @default.
W2089126390 cites W2064593439 @default.
W2089126390 cites W2067466495 @default.
W2089126390 cites W2067519431 @default.
W2089126390 cites W2067577558 @default.
W2089126390 cites W2069102346 @default.
W2089126390 cites W2070579707 @default.
W2089126390 cites W2071409492 @default.
W2089126390 cites W2073627231 @default.
W2089126390 cites W2074988123 @default.
W2089126390 cites W2075758474 @default.
W2089126390 cites W2076920562 @default.
W2089126390 cites W2081037442 @default.
W2089126390 cites W2084885824 @default.
W2089126390 cites W2086826121 @default.
W2089126390 cites W2086898364 @default.
W2089126390 cites W2094785216 @default.
W2089126390 cites W2094818807 @default.
W2089126390 cites W2105419019 @default.
W2089126390 cites W2109414098 @default.
W2089126390 cites W2130973873 @default.
W2089126390 cites W2142392849 @default.
W2089126390 cites W2303030959 @default.
W2089126390 cites W2323398739 @default.
W2089126390 cites W3127048131 @default.
W2089126390 doi "https://doi.org/10.1103/physrevb.57.12207" @default.
W2089126390 hasPublicationYear "1998" @default.
W2089126390 type Work @default.
W2089126390 sameAs 2089126390 @default.
W2089126390 citedByCount "26" @default.
W2089126390 countsByYear W20891263902012 @default.
W2089126390 countsByYear W20891263902013 @default.
W2089126390 countsByYear W20891263902015 @default.
W2089126390 countsByYear W20891263902017 @default.
W2089126390 countsByYear W20891263902019 @default.
W2089126390 crossrefType "journal-article" @default.
W2089126390 hasAuthorship W2089126390A5083014857 @default.
W2089126390 hasAuthorship W2089126390A5090364322 @default.
W2089126390 hasConcept C104317684 @default.
W2089126390 hasConcept C120665830 @default.
W2089126390 hasConcept C121332964 @default.
W2089126390 hasConcept C156695909 @default.
W2089126390 hasConcept C159317903 @default.
W2089126390 hasConcept C177731217 @default.
W2089126390 hasConcept C184779094 @default.
W2089126390 hasConcept C185592680 @default.
W2089126390 hasConcept C186370098 @default.
W2089126390 hasConcept C26873012 @default.
W2089126390 hasConcept C2778785133 @default.
W2089126390 hasConcept C520434653 @default.