Titlebook: Enhancing the Light Output of Solid-State Emitters; Christopher Woodhead Book 2018 Springer Nature Switzerland AG 2018 Solid Immersion Len

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Background and Theory,This section addresses some of the key concepts in solid state physics that are important to understand when considering the light emission of a semiconductor.

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https://doi.org/10.1057/9781403983473ta, when we want to access the internet (Renner in IEEE J Quantum Electron 23:641, 1987, [.]; Arafin et al. in IEEE J Sel Top Quantum Electron 23:1–9, 2017, [.]), energy efficient LEDs to light our homes (Anikeeva et al. in Nano Lett 9:2532–2536, 2009, [.]; Shirasaki et al. in Nat Photonics 7:13–23,

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https://doi.org/10.1007/978-3-319-40976-4al. The epoxy SIL described fully encapsulates the monolayer helping to prevent physical damage and degradation in air. Micro-photoluminescence results show a large intensity increase from a monolayer of tungsten diselenide (WSe.) combined with an increase in imaging resolution.

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The Python Quick Syntax Referenceavelength of each of these emitters, makes them attractive as potential sources of single photons. However, these emitters have relatively low efficiencies; with the quantum dot (QD) samples showing high spectral broadening due to their type-II band alignment, and 2D materials having low internal ef

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https://doi.org/10.1007/978-3-319-95013-6Solid Immersion Lens; Quantum Ring; Light Extraction Efficiency; 2D Materials; Tungsten Diselenide; Etchi

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https://doi.org/10.1057/97814039834738, 2014, [.]; Han et al. in Nat Photonics 6:105–110, 2012, [.]). All these examples are classical light sources; they emit a large number of photons which can be considered as a classical wave, with a higher intensity corresponding to the square of the amplitude of the wave increasing.