Computational Techniques Toward 1 nm Super-resolution Microscopy

This thesis explores advanced computational techniques in super-resolution microscopy (SRM), with the primary goal of pushing the limits of achievable resolution towards the 1 nm scale. It includes developments in particle fusion algorithms, data analysis of complex biological structures, and exploration of the impact of molecular dipole...

Opto-thermo-mechanical phenomena in satellite free-space optical communications: survey and challenges

Growing interest in free-space optical communication, due to the high bandwidth and security provided by these links, has generated the necessity of designing high-performance satellite terminals. In order to develop these terminals, the opto-thermo-mechanical phenomena that appear in the space environment and their effect on optical...

Wave Optics Simulation of Subwavelength Structures within Solar Cells: Integration of RCWA with GenPro4

To further improve the light management and optical performance of solar cells, research into nano-textured interfaces has led to a need for a fast and accurate wave optics model. Currently, within the PVMD group at the TU Delft an optical solar cell simulation tool, GenPro4, is being developed to allow for the quick optimization and analysis of...

Free-Space Multi-beam Optical Communication Terminal Design for Spacecraft

Contemporary optical communication terminals are capable of higher data rates, over longer distances for less power compared to traditional radio communication terminals. As of writing, these terminals are almost exclusively single beam compatible. This thesis describes dedicated multi-beam terminal with COTS components. The design study used a...

Comparing optical performance of a wide range of perovskite/silicon tandem architectures under real-world conditions

Since single junction c-Si solar cells are reaching their practical efficiency limit. Perovskite/c-Si tandem solar cells hold the promise of achieving greater than 30% efficiencies. In this regard, optical simulations can deliver guidelines for reducing the parasitic absorption losses and increasing the photocurrent density of the tandem...

Geometrical optimisation of core-shell nanowire arrays for enhanced absorption in thin crystalline silicon heterojunction solar cells

Background: Elongated nanostructures, such as nanowires, have attracted significant attention for application in silicon-based solar cells. The high aspect ratio and characteristic radial junction configuration can lead to higher device performance, by increasing light absorption and, at the same time, improving the collection efficiency of...

Light management in thin-film silicon solar cells

Solar energy can fulfil mankind’s energy needs and secure a more balanced distribution of primary sources of energy. Wafer-based and thin-film silicon solar cells dominate todays’ photovoltaic market because silicon is a non-toxic and abundant material and high conversion efficiencies are achieved with silicon-based solar cells. To stay...

Advanced Light Management Approaches for Thin-Film Silicon Solar Cells

Light management is important for improving the performance of thin-film solar cells. Advanced concepts of efficient light scattering and trapping inside the cell structures need to be investigated. An important tool for design and optimisation of the concepts present optical modelling and simulation. In the article a model of light scattering...

Hydrogenated Amorphous Silicon and p/i-heterojunctions: Optical and Electrical Modeling and Technology as Applied to Solar Cells

Optical modeling and characterization of hydrogenated amorphous silicon solar cells