SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2019468239> ?p ?o ?g. }

Showing items 1 to 100 of ±159 with 100 items per page.

W2019468239 endingPage "25382" @default.
W2019468239 startingPage "25371" @default.
W2019468239 abstract "The dynamics of exciton spin relaxation in CdSe nanorods of various sizes and shapes are measured by an ultrafast transient polarization grating technique. The measurement of the third-order transient grating (3-TG) signal utilizing linear cross-polarized pump pulses enables us to monitor the history of spin relaxation among the bright exciton states with a total angular momentum of F = ±1. From the measured exciton spin relaxation dynamics, it is found that the effective mechanism of exciton spin relaxation is sensitive to the size of the nanorod. Most of the measured cross-polarized 3-TG signals show single-exponential spin relaxation dynamics, while biexponential spin relaxation dynamics are observed in the nanorod of the largest diameter. This analysis suggests that a direct exciton spin flip process between the bright exciton states with F = ±1 is the dominant spin relaxation mechanism in small nanocrystals, and an indirect spin flip via the dark states with F = ±2 contributes as the size of the nanocrystal increases. This idea is examined by simulations of 3-TG signals with a kinetic model for exciton spin relaxation considering the states in the exciton fine structure. Also, it is revealed that the rate of exciton spin relaxation has a strong correlation with the diameter, d, of the nanorod, scaled by the power law of 1/d4, rather than other shape parameters such as length, volume, or aspect ratio." @default.
W2019468239 created "2016-06-24" @default.
W2019468239 creator A5029838157 @default.
W2019468239 creator A5049129395 @default.
W2019468239 creator A5061377985 @default.
W2019468239 creator A5068046939 @default.
W2019468239 creator A5081573961 @default.
W2019468239 creator A5002729749 @default.
W2019468239 date "2006-10-10" @default.
W2019468239 modified "2023-10-16" @default.
W2019468239 title "Mechanism and Origin of Exciton Spin Relaxation in CdSe Nanorods" @default.
W2019468239 cites W1513209253 @default.
W2019468239 cites W1574000348 @default.
W2019468239 cites W1610344507 @default.
W2019468239 cites W193734551 @default.
W2019468239 cites W1949276676 @default.
W2019468239 cites W1972673548 @default.
W2019468239 cites W1976456008 @default.
W2019468239 cites W1978638905 @default.
W2019468239 cites W1979571930 @default.
W2019468239 cites W1980495221 @default.
W2019468239 cites W1982003307 @default.
W2019468239 cites W1982437214 @default.
W2019468239 cites W1982521574 @default.
W2019468239 cites W1984615081 @default.
W2019468239 cites W1985323402 @default.
W2019468239 cites W1985428419 @default.
W2019468239 cites W1987763890 @default.
W2019468239 cites W1990577781 @default.
W2019468239 cites W1990796785 @default.
W2019468239 cites W1997345073 @default.
W2019468239 cites W2004922999 @default.
W2019468239 cites W2006554791 @default.
W2019468239 cites W2007684864 @default.
W2019468239 cites W2010008330 @default.
W2019468239 cites W2010063307 @default.
W2019468239 cites W2020182548 @default.
W2019468239 cites W2023741248 @default.
W2019468239 cites W2025669689 @default.
W2019468239 cites W2026390838 @default.
W2019468239 cites W2032427157 @default.
W2019468239 cites W2033141778 @default.
W2019468239 cites W2035198972 @default.
W2019468239 cites W2035302850 @default.
W2019468239 cites W2035826230 @default.
W2019468239 cites W2035845421 @default.
W2019468239 cites W2037743483 @default.
W2019468239 cites W2041983975 @default.
W2019468239 cites W2042473487 @default.
W2019468239 cites W2043404335 @default.
W2019468239 cites W2046036388 @default.
W2019468239 cites W2049591789 @default.
W2019468239 cites W2054356764 @default.
W2019468239 cites W2055235391 @default.
W2019468239 cites W2055876936 @default.
W2019468239 cites W2061479401 @default.
W2019468239 cites W2062485439 @default.
W2019468239 cites W2069570734 @default.
W2019468239 cites W2070667128 @default.
W2019468239 cites W2072840188 @default.
W2019468239 cites W2076705057 @default.
W2019468239 cites W2077963086 @default.
W2019468239 cites W2081293264 @default.
W2019468239 cites W2081427442 @default.
W2019468239 cites W2083115434 @default.
W2019468239 cites W2083731220 @default.
W2019468239 cites W2084820147 @default.
W2019468239 cites W2084891084 @default.
W2019468239 cites W2085886397 @default.
W2019468239 cites W2091279318 @default.
W2019468239 cites W2093065511 @default.
W2019468239 cites W2102131831 @default.
W2019468239 cites W2110917383 @default.
W2019468239 cites W2121296270 @default.
W2019468239 cites W2123605247 @default.
W2019468239 cites W2141898823 @default.
W2019468239 cites W2146563110 @default.
W2019468239 cites W2147723412 @default.
W2019468239 cites W2154895348 @default.
W2019468239 cites W2168172378 @default.
W2019468239 cites W2172683812 @default.
W2019468239 cites W3099937706 @default.
W2019468239 cites W4235783166 @default.
W2019468239 cites W2082022139 @default.
W2019468239 doi "https://doi.org/10.1021/jp0644816" @default.
W2019468239 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/17165984" @default.
W2019468239 hasPublicationYear "2006" @default.
W2019468239 type Work @default.
W2019468239 sameAs 2019468239 @default.
W2019468239 citedByCount "30" @default.
W2019468239 countsByYear W20194682392012 @default.
W2019468239 countsByYear W20194682392013 @default.
W2019468239 countsByYear W20194682392015 @default.
W2019468239 countsByYear W20194682392017 @default.
W2019468239 countsByYear W20194682392022 @default.
W2019468239 countsByYear W20194682392023 @default.
W2019468239 crossrefType "journal-article" @default.
W2019468239 hasAuthorship W2019468239A5002729749 @default.