The significance of the development of solid-state lighting was underscored by the award of a Nobel Prize in 2014. It is important to build upon this work and to produce practical and versatile sources of quantum light, because these are essential components for the advancement of quantum photonic devices. These devices, in turn, promise new technologies that have the potential to revolutionize society. This book explores various ways of coupling quantum light into, and out of, solid-state emitters. The research presented here has led to important discoveries that will help overcome major challenges in this field.…mehr
The significance of the development of solid-state lighting was underscored by the award of a Nobel Prize in 2014. It is important to build upon this work and to produce practical and versatile sources of quantum light, because these are essential components for the advancement of quantum photonic devices. These devices, in turn, promise new technologies that have the potential to revolutionize society. This book explores various ways of coupling quantum light into, and out of, solid-state emitters. The research presented here has led to important discoveries that will help overcome major challenges in this field.
Christopher is a semicondconductor physicist from Lancaster University who during his PhD studied the optical properties of semiconductor based nanostructures. Throughout this period he has authored multiple high impact publications analysing the light emitted from low dimensional structures, such as quantum dots and 2D materials. He has won multiple awards in this time, the most recent being a Doctoral Prize Fellowship from the The Engineering and Physical Sciences Research Council (EPSRC).
Inhaltsangabe
Introduction.- Background and Theory.- Experimental Methods and Techniques.- Enhancing the Photoluminescence of GaSb/GaAs QD Nano-structures.- Integration of III-V Based Type-II QDs with Silicon.- Increasing Light Extraction Using UV Curable SILs.- Conclusions.
Introduction.- Background and Theory.- Experimental Methods and Techniques.- Enhancing the Photoluminescence of GaSb/GaAs QD Nano-structures.- Integration of III-V Based Type-II QDs with Silicon.- Increasing Light Extraction Using UV Curable SILs.- Conclusions.
Introduction.- Background and Theory.- Experimental Methods and Techniques.- Enhancing the Photoluminescence of GaSb/GaAs QD Nano-structures.- Integration of III-V Based Type-II QDs with Silicon.- Increasing Light Extraction Using UV Curable SILs.- Conclusions.
Introduction.- Background and Theory.- Experimental Methods and Techniques.- Enhancing the Photoluminescence of GaSb/GaAs QD Nano-structures.- Integration of III-V Based Type-II QDs with Silicon.- Increasing Light Extraction Using UV Curable SILs.- Conclusions.
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