FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4309341018> ?p ?o ?g. }

• W4309341018 endingPage "104462" @default.
• W4309341018 startingPage "104462" @default.
• W4309341018 abstract "• The radiative transfer in multi-scale aerosols has been calculated by written model. • The multi-scale aerosol optical properties has been calculated by different methods. • The errors of shortwave radiation characteristics under two methods are compared. Atmospheric aerosols can significantly affect atmospheric radiative transfer, especially for shortwave radiation. In this paper, the differences between the bin method and the parameterization method for determining the aerosol optical properties using particle size distribution on the effect of solar shortwave radiation have been discussed according to the developed vector radiative transfer model. The aerosol particle size is divided into multiple regions in the bin method and each region has separate optical properties, while the optical properties of the parameterization method are obtained by integrating the entire size distribution and remain constant. Firstly, the accuracy of the model has been verified by Rayleigh scattering and field distribution simulations, and the validation results show that the average errors of normalized radiation intensity, Stokes components Q and U are 1.36 %, 0.79 %, and 5.82 %, respectively. Subsequently, the angular distribution of radiation, the radiation characteristics of different model parameters, and the field distribution of polarization characteristics under the two methods have been calculated, and the relative errors between the methods have been discussed. The results show that the differences between the two methods are significant, and the angular radiation intensity of the bin method is generally larger than that of the parameterization method, with an average error of about 5 %. The transmissivity decreases, and reflectivity increases with the increasing SZA (AOD), respectively, but both decrease with the increasing wavelength. For all model parameters, the transmissivity calculated by the bin method is generally smaller than that of the parameterization method, while the reflectivity is larger, indicating that the forward scattering determined by the bin method is weaker and the lateral (backward) scattering is stronger. Besides, the field distribution results show differences in the scattering phase matrix determined by the two methods. This research contributes to the knowledge of climate assessment and target detection." @default.
• W4309341018 created "2022-11-26" @default.
• W4309341018 creator A5075732498 @default.
• W4309341018 creator A5082360137 @default.
• W4309341018 date "2022-12-01" @default.
• W4309341018 modified "2023-09-27" @default.
• W4309341018 title "Error analysis of multi-scale aerosol optical properties in shortwave radiative transfer" @default.
• W4309341018 cites W1964802522 @default.
• W4309341018 cites W1965907437 @default.
• W4309341018 cites W1988724726 @default.
• W4309341018 cites W2016211340 @default.
• W4309341018 cites W2023794258 @default.
• W4309341018 cites W2051748842 @default.
• W4309341018 cites W2062081299 @default.
• W4309341018 cites W2079447929 @default.
• W4309341018 cites W2093688029 @default.
• W4309341018 cites W2100228139 @default.
• W4309341018 cites W2103721688 @default.
• W4309341018 cites W2123139056 @default.
• W4309341018 cites W2135302030 @default.
• W4309341018 cites W2416230169 @default.
• W4309341018 cites W2599025227 @default.
• W4309341018 cites W2607144561 @default.
• W4309341018 cites W2612653713 @default.
• W4309341018 cites W2664309203 @default.
• W4309341018 cites W2911633744 @default.
• W4309341018 cites W2928343037 @default.
• W4309341018 cites W2972213899 @default.
• W4309341018 cites W2980551328 @default.
• W4309341018 cites W2986098672 @default.
• W4309341018 cites W2987398437 @default.
• W4309341018 cites W3012536595 @default.
• W4309341018 cites W3020867310 @default.
• W4309341018 cites W3046547283 @default.
• W4309341018 cites W4220886655 @default.
• W4309341018 cites W4246079422 @default.
• W4309341018 cites W4303649644 @default.
• W4309341018 doi "https://doi.org/10.1016/j.infrared.2022.104462" @default.
• W4309341018 hasPublicationYear "2022" @default.
• W4309341018 type Work @default.
• W4309341018 citedByCount "0" @default.
• W4309341018 crossrefType "journal-article" @default.
• W4309341018 hasAuthorship W4309341018A5075732498 @default.
• W4309341018 hasAuthorship W4309341018A5082360137 @default.
• W4309341018 hasConcept C120665830 @default.
• W4309341018 hasConcept C121332964 @default.
• W4309341018 hasConcept C127313418 @default.
• W4309341018 hasConcept C153294291 @default.
• W4309341018 hasConcept C192562407 @default.
• W4309341018 hasConcept C199390426 @default.
• W4309341018 hasConcept C2776272892 @default.
• W4309341018 hasConcept C2778755073 @default.
• W4309341018 hasConcept C2779345167 @default.
• W4309341018 hasConcept C39432304 @default.
• W4309341018 hasConcept C62520636 @default.
• W4309341018 hasConcept C62649853 @default.
• W4309341018 hasConcept C74902906 @default.
• W4309341018 hasConcept C91586092 @default.
• W4309341018 hasConceptScore W4309341018C120665830 @default.
• W4309341018 hasConceptScore W4309341018C121332964 @default.
• W4309341018 hasConceptScore W4309341018C127313418 @default.
• W4309341018 hasConceptScore W4309341018C153294291 @default.
• W4309341018 hasConceptScore W4309341018C192562407 @default.
• W4309341018 hasConceptScore W4309341018C199390426 @default.
• W4309341018 hasConceptScore W4309341018C2776272892 @default.
• W4309341018 hasConceptScore W4309341018C2778755073 @default.
• W4309341018 hasConceptScore W4309341018C2779345167 @default.
• W4309341018 hasConceptScore W4309341018C39432304 @default.
• W4309341018 hasConceptScore W4309341018C62520636 @default.
• W4309341018 hasConceptScore W4309341018C62649853 @default.
• W4309341018 hasConceptScore W4309341018C74902906 @default.
• W4309341018 hasConceptScore W4309341018C91586092 @default.
• W4309341018 hasFunder F4320321001 @default.
• W4309341018 hasLocation W43093410181 @default.
• W4309341018 hasOpenAccess W4309341018 @default.
• W4309341018 hasPrimaryLocation W43093410181 @default.
• W4309341018 hasRelatedWork W1677652692 @default.
• W4309341018 hasRelatedWork W2063187403 @default.
• W4309341018 hasRelatedWork W2068823257 @default.
• W4309341018 hasRelatedWork W2071228831 @default.
• W4309341018 hasRelatedWork W3000705481 @default.
• W4309341018 hasRelatedWork W3017230658 @default.
• W4309341018 hasRelatedWork W3124798321 @default.
• W4309341018 hasRelatedWork W3128634643 @default.
• W4309341018 hasRelatedWork W4236453460 @default.
• W4309341018 hasRelatedWork W4243776866 @default.
• W4309341018 hasVolume "127" @default.
• W4309341018 isParatext "false" @default.
• W4309341018 isRetracted "false" @default.
• W4309341018 workType "article" @default.