Add to ORKGIn recent years, computer simulation has become a standard tool for analyzing solar energy systems. The interaction of light with nanoscale matter can provide greater functionality for photonic devices and render unique information about their structural and dynamical properties. As the field of nanophotonics continues to experience phenomenal growth at both the fundamental research and applications level, computational modeling is essential both for interpreting experiments and for suggesting new directions - for example, in designing of thin-film photovoltaic cells. The demand for computer simulation continues to increase as researchers and developers tackle the tough challenges of designing new generation devices and optimizing current g...
In this invited paper we focus on the discussion of two recent unique applications of the Finite-Dif...
Solar cells are electrical devices that can directly convert sunlight into electricity. While solar ...
Solar cells are electrical devices that can directly convert sunlight into electricity. While solar ...
Photovoltaics (PV) can in principle supply enough renewable energy to offset a great deal of fossil ...
The Finite-Difference-Time-Domain (FDTD) method is a numerical method that calculates electric field...
There is a large and growing need for accurate full-wave optical simulations of complex systems such...
In the last decade, nanotechnology has enormously and rapidly developed. The technological progress ...
The solar energy harvesting efficiency of photovoltaic solar cells are limited by the fact that they...
Thin-film silicon-based solar cells have operated far from the Shockley- Queisser limit in all exper...
Absorption modeling is at the core of the design process of nanostructured solar cells and photodete...
Finite difference time-domain (FDTD) method is used to design, simulate and calculate the light trap...
International audienceThe numerical modeling of light interaction with nanostructured materials is a...
This research concentrates on modelling and optimisation of a static building integrated PV (BIPV) c...
Thin-film silicon-based solar cells have operated far from the Shockley- Queisser limit in all exper...
This extensively revised and expanded third edition of the Artech House bestseller, Computational El...
In this invited paper we focus on the discussion of two recent unique applications of the Finite-Dif...
Solar cells are electrical devices that can directly convert sunlight into electricity. While solar ...
Solar cells are electrical devices that can directly convert sunlight into electricity. While solar ...
Photovoltaics (PV) can in principle supply enough renewable energy to offset a great deal of fossil ...
The Finite-Difference-Time-Domain (FDTD) method is a numerical method that calculates electric field...
There is a large and growing need for accurate full-wave optical simulations of complex systems such...
In the last decade, nanotechnology has enormously and rapidly developed. The technological progress ...
The solar energy harvesting efficiency of photovoltaic solar cells are limited by the fact that they...
Thin-film silicon-based solar cells have operated far from the Shockley- Queisser limit in all exper...
Absorption modeling is at the core of the design process of nanostructured solar cells and photodete...
Finite difference time-domain (FDTD) method is used to design, simulate and calculate the light trap...
International audienceThe numerical modeling of light interaction with nanostructured materials is a...
This research concentrates on modelling and optimisation of a static building integrated PV (BIPV) c...
Thin-film silicon-based solar cells have operated far from the Shockley- Queisser limit in all exper...
This extensively revised and expanded third edition of the Artech House bestseller, Computational El...
In this invited paper we focus on the discussion of two recent unique applications of the Finite-Dif...
Solar cells are electrical devices that can directly convert sunlight into electricity. While solar ...
Solar cells are electrical devices that can directly convert sunlight into electricity. While solar ...