SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2325647386> ?p ?o ?g. }

Showing items 1 to 69 of 69 with 100 items per page.

W2325647386 endingPage "1747" @default.
W2325647386 startingPage "1746" @default.
W2325647386 abstract "Within the latest years number of layered materials at reduced dimensions have demonstrated remarkable optical properties. However most studies focused on perfect system and the role of defects as optical active centers remain still largely unexplored. Hexagonal boron nitride (h-BN) is one of the most promising candidates for light emitting devices in the far UV region, presenting a single strong excitonic emission at 5.8 eV. However, a single line appears only in extremely pure monocrystals that can hardly be obtained only though complex synthesis processes. Common h-BN samples present more complex emission spectra that have been generally attributed to the presence of structural defects. Despite a large number of experimental studies up to now it was not possible to attribute specific emission features to well identify defective structures. Here we address this fundamental questions by adopting a theoretical and experimental approach combining few nanometer resolved cathodoluminescence techniques with high resolution transmission electron microscopy images and state of the art quantum mechanical simulations. Very recently, the Orsay team has developed a cathodoluminescence detection system integrated within a scanning transmission electron microscope. This unique experimental set up is now able to provide full emission spectra with a resolution as low as few tens of meV associated with an electron probe size of one nanometer. A cathodoluminescence spectrum-image can thus be recorded in parallel with an HAADF image. Nanometric resolved cathodoluminescence on few-layer chemically exfoliated h-BN crystals have shown that emission spectra are strongly inhomogeneous within individual flakes. Emission peaks close to the free exciton appear in extended regions. Complementary investigations through high resolution transmission electron microscopy allow to associate these emission lines with extended crystal deformation such as stacking faults and folds of the planes. By means of ab-initio calculations in the framework of Many Body Perturbation Theory (GW approximation and Bethe-Salpeter equation) we provide an in-depth description of the electronic structure and spectroscopic response of bulk hexagonal boron nitride in the presence of extended morphological modifications. In particular we show that, in a good agreement with the experimental results, additional excitons are associated to local symmetry changes occurring at crystal stacking faults. Additional features appearing within the band gap present a high spatial localization, typically less than 100 nm, and thus they can be related to individual point defects. When addressed individually through a highly focused electron probe they might have a single photon emitter quantum character. This hypothesis has been recently confirmed by experiments combining our cathodoluminescence system with an Hanbury Brown and Twiss (HBT) interferometer [4]." @default.
W2325647386 created "2016-06-24" @default.
W2325647386 creator A5010328231 @default.
W2325647386 creator A5011909775 @default.
W2325647386 creator A5018840470 @default.
W2325647386 creator A5020351173 @default.
W2325647386 creator A5025915332 @default.
W2325647386 creator A5035874630 @default.
W2325647386 creator A5042838223 @default.
W2325647386 creator A5046627814 @default.
W2325647386 creator A5059526903 @default.
W2325647386 creator A5074794329 @default.
W2325647386 creator A5078843406 @default.
W2325647386 creator A5085301440 @default.
W2325647386 date "2014-08-01" @default.
W2325647386 modified "2023-09-27" @default.
W2325647386 title "Nanometric Resolved Cathodoluminescence on Few-Layer h-BN Flakes" @default.
W2325647386 doi "https://doi.org/10.1017/s1431927614010460" @default.
W2325647386 hasPublicationYear "2014" @default.
W2325647386 type Work @default.
W2325647386 sameAs 2325647386 @default.
W2325647386 citedByCount "0" @default.
W2325647386 crossrefType "journal-article" @default.
W2325647386 hasAuthorship W2325647386A5010328231 @default.
W2325647386 hasAuthorship W2325647386A5011909775 @default.
W2325647386 hasAuthorship W2325647386A5018840470 @default.
W2325647386 hasAuthorship W2325647386A5020351173 @default.
W2325647386 hasAuthorship W2325647386A5025915332 @default.
W2325647386 hasAuthorship W2325647386A5035874630 @default.
W2325647386 hasAuthorship W2325647386A5042838223 @default.
W2325647386 hasAuthorship W2325647386A5046627814 @default.
W2325647386 hasAuthorship W2325647386A5059526903 @default.
W2325647386 hasAuthorship W2325647386A5074794329 @default.
W2325647386 hasAuthorship W2325647386A5078843406 @default.
W2325647386 hasAuthorship W2325647386A5085301440 @default.
W2325647386 hasBestOaLocation W23256473861 @default.
W2325647386 hasConcept C139861200 @default.
W2325647386 hasConcept C148869448 @default.
W2325647386 hasConcept C159985019 @default.
W2325647386 hasConcept C192562407 @default.
W2325647386 hasConcept C2779227376 @default.
W2325647386 hasConcept C49040817 @default.
W2325647386 hasConceptScore W2325647386C139861200 @default.
W2325647386 hasConceptScore W2325647386C148869448 @default.
W2325647386 hasConceptScore W2325647386C159985019 @default.
W2325647386 hasConceptScore W2325647386C192562407 @default.
W2325647386 hasConceptScore W2325647386C2779227376 @default.
W2325647386 hasConceptScore W2325647386C49040817 @default.
W2325647386 hasIssue "S3" @default.
W2325647386 hasLocation W23256473861 @default.
W2325647386 hasOpenAccess W2325647386 @default.
W2325647386 hasPrimaryLocation W23256473861 @default.
W2325647386 hasRelatedWork W1977264442 @default.
W2325647386 hasRelatedWork W1994103032 @default.
W2325647386 hasRelatedWork W2014315543 @default.
W2325647386 hasRelatedWork W2051270029 @default.
W2325647386 hasRelatedWork W2082293200 @default.
W2325647386 hasRelatedWork W2137307547 @default.
W2325647386 hasRelatedWork W2380293314 @default.
W2325647386 hasRelatedWork W2943188944 @default.
W2325647386 hasRelatedWork W4285802202 @default.
W2325647386 hasRelatedWork W4317433637 @default.
W2325647386 hasVolume "20" @default.
W2325647386 isParatext "false" @default.
W2325647386 isRetracted "false" @default.
W2325647386 magId "2325647386" @default.
W2325647386 workType "article" @default.