FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4386304466> ?p ?o ?g. }

• W4386304466 endingPage "3383" @default.
• W4386304466 startingPage "3374" @default.
• W4386304466 abstract "Effective light extraction from optically active solid-state spin centers inside high-index semiconductor host crystals is an important factor in integrating these pseudo-atomic centers in wider quantum systems. Here, we report increased fluorescent light collection efficiency from laser-written nitrogen-vacancy (NV) centers in bulk diamond facilitated by micro-transfer printed GaN solid immersion lenses. Both laser-writing of NV centers and transfer printing of micro-lens structures are compatible with high spatial resolution, enabling deterministic fabrication routes toward future scalable systems development. The micro-lenses are integrated in a noninvasive manner, as they are added on top of the unstructured diamond surface and bonded by van der Waals forces. For emitters at 5 μm depth, we find approximately 2× improvement of fluorescent light collection using an air objective with a numerical aperture of NA = 0.95 in good agreement with simulations. Similarly, the solid immersion lenses strongly enhance light collection when using an objective with NA = 0.5, significantly improving the signal-to-noise ratio of the NV center emission while maintaining the NV's quantum properties after integration." @default.
• W4386304466 created "2023-09-01" @default.
• W4386304466 creator A5005802272 @default.
• W4386304466 creator A5005829774 @default.
• W4386304466 creator A5007184847 @default.
• W4386304466 creator A5010355207 @default.
• W4386304466 creator A5016487152 @default.
• W4386304466 creator A5023597520 @default.
• W4386304466 creator A5024523945 @default.
• W4386304466 creator A5027248524 @default.
• W4386304466 creator A5028033253 @default.
• W4386304466 creator A5043053907 @default.
• W4386304466 creator A5048000978 @default.
• W4386304466 creator A5084407057 @default.
• W4386304466 date "2023-08-30" @default.
• W4386304466 modified "2023-10-15" @default.
• W4386304466 title "Additive GaN Solid Immersion Lenses for Enhanced Photon Extraction Efficiency from Diamond Color Centers" @default.
• W4386304466 cites W1582905296 @default.
• W4386304466 cites W1971600310 @default.
• W4386304466 cites W1980583020 @default.
• W4386304466 cites W1985351434 @default.
• W4386304466 cites W1998081391 @default.
• W4386304466 cites W2012445503 @default.
• W4386304466 cites W2014174828 @default.
• W4386304466 cites W2017956699 @default.
• W4386304466 cites W2031087977 @default.
• W4386304466 cites W2038320852 @default.
• W4386304466 cites W2039461007 @default.
• W4386304466 cites W2039913610 @default.
• W4386304466 cites W2045988172 @default.
• W4386304466 cites W2058874525 @default.
• W4386304466 cites W2059228038 @default.
• W4386304466 cites W2068584508 @default.
• W4386304466 cites W2084835522 @default.
• W4386304466 cites W2094375774 @default.
• W4386304466 cites W2107465355 @default.
• W4386304466 cites W2128081221 @default.
• W4386304466 cites W2128704993 @default.
• W4386304466 cites W2159196127 @default.
• W4386304466 cites W2160229423 @default.
• W4386304466 cites W2166687037 @default.
• W4386304466 cites W2205309506 @default.
• W4386304466 cites W2269906306 @default.
• W4386304466 cites W2435068743 @default.
• W4386304466 cites W2512567572 @default.
• W4386304466 cites W2619488424 @default.
• W4386304466 cites W2791089094 @default.
• W4386304466 cites W2796346468 @default.
• W4386304466 cites W2808213972 @default.
• W4386304466 cites W2992362390 @default.
• W4386304466 cites W2994399303 @default.
• W4386304466 cites W3014097088 @default.
• W4386304466 cites W3033729444 @default.
• W4386304466 cites W3041596671 @default.
• W4386304466 cites W3081784002 @default.
• W4386304466 cites W3088780506 @default.
• W4386304466 cites W3098163340 @default.
• W4386304466 cites W3099451858 @default.
• W4386304466 cites W3100758488 @default.
• W4386304466 cites W3101674541 @default.
• W4386304466 cites W3102819799 @default.
• W4386304466 cites W3105490670 @default.
• W4386304466 cites W3105895839 @default.
• W4386304466 cites W3118326175 @default.
• W4386304466 cites W3120656700 @default.
• W4386304466 cites W3124566285 @default.
• W4386304466 cites W3131478618 @default.
• W4386304466 cites W3153423942 @default.
• W4386304466 cites W3157274538 @default.
• W4386304466 cites W3157873136 @default.
• W4386304466 cites W3189526869 @default.
• W4386304466 cites W3207120198 @default.
• W4386304466 cites W3211518277 @default.
• W4386304466 cites W3212187529 @default.
• W4386304466 cites W3216877328 @default.
• W4386304466 cites W4221159796 @default.
• W4386304466 cites W4225728006 @default.
• W4386304466 cites W4308509924 @default.
• W4386304466 cites W4310288266 @default.
• W4386304466 cites W4312619360 @default.
• W4386304466 cites W4319337336 @default.
• W4386304466 cites W4382792586 @default.
• W4386304466 cites W603627912 @default.
• W4386304466 doi "https://doi.org/10.1021/acsphotonics.3c00854" @default.
• W4386304466 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37743941" @default.
• W4386304466 hasPublicationYear "2023" @default.
• W4386304466 type Work @default.
• W4386304466 citedByCount "0" @default.
• W4386304466 crossrefType "journal-article" @default.
• W4386304466 hasAuthorship W4386304466A5005802272 @default.
• W4386304466 hasAuthorship W4386304466A5005829774 @default.
• W4386304466 hasAuthorship W4386304466A5007184847 @default.
• W4386304466 hasAuthorship W4386304466A5010355207 @default.
• W4386304466 hasAuthorship W4386304466A5016487152 @default.
• W4386304466 hasAuthorship W4386304466A5023597520 @default.
• W4386304466 hasAuthorship W4386304466A5024523945 @default.
• W4386304466 hasAuthorship W4386304466A5027248524 @default.
• W4386304466 hasAuthorship W4386304466A5028033253 @default.

• next