Add to ORKGThis paper extends the area of application of the Fourier modal method from periodic structures to aperiodic ones, in particular for plane-wave illumination at arbitrary angles. This is achieved by placing perfectly matched layers at the lateral sides of the computational domain and reformulating the governing equations in terms of a contrast field which does not contain the incoming field
The Fourier modal method (FMM) is widely used in the diffractive optics community as an effcient too...
This paper extends the area of application of the Fourier modal method (FMM) from periodic structure...
This paper extends the area of application of the Fourier modal method (FMM) from periodic structure...
This paper extends the area of application of the Fourier modal method (FMM) from periodic structure...
This paper extends the area of application of the Fourier modal method from periodic structures to n...
This paper extends the area of application of the Fourier modal method from periodic structures to n...
This paper extends the area of application of the Fourier modal method from periodic structures to a...
This paper extends the area of application of the Fourier modal method from periodic structures to a...
This paper extends the area of application of the Fourier modal method from periodic structures to a...
This paper extends the area of application of the Fourier modal method from periodic structures to a...
This paper extends the area of application of the Fourier modal method from periodic structures to a...
This paper extends the area of application of the Fourier modal method from periodic structures to a...
This paper extends the area of application of the Fourier modal method from periodic structures to a...
This paper extends the area of application of the Fourier modal method from periodic structures to a...
The Fourier modal method (FMM) is widely used in the diffractive optics community as an effcient too...
The Fourier modal method (FMM) is widely used in the diffractive optics community as an effcient too...
This paper extends the area of application of the Fourier modal method (FMM) from periodic structure...
This paper extends the area of application of the Fourier modal method (FMM) from periodic structure...
This paper extends the area of application of the Fourier modal method (FMM) from periodic structure...
This paper extends the area of application of the Fourier modal method from periodic structures to n...
This paper extends the area of application of the Fourier modal method from periodic structures to n...
This paper extends the area of application of the Fourier modal method from periodic structures to a...
This paper extends the area of application of the Fourier modal method from periodic structures to a...
This paper extends the area of application of the Fourier modal method from periodic structures to a...
This paper extends the area of application of the Fourier modal method from periodic structures to a...
This paper extends the area of application of the Fourier modal method from periodic structures to a...
This paper extends the area of application of the Fourier modal method from periodic structures to a...
This paper extends the area of application of the Fourier modal method from periodic structures to a...
This paper extends the area of application of the Fourier modal method from periodic structures to a...
The Fourier modal method (FMM) is widely used in the diffractive optics community as an effcient too...
The Fourier modal method (FMM) is widely used in the diffractive optics community as an effcient too...
This paper extends the area of application of the Fourier modal method (FMM) from periodic structure...
This paper extends the area of application of the Fourier modal method (FMM) from periodic structure...