Add to ORKGDiffraction gratings are often used in optical metrology. When an electromagnetic wave is incident on a grating, the periodicity of the grating causes amultiplicity of diffraction orders. In many metrology applications one needs to know the diffraction efficiency of these orders. Since the period of a grating is often of the same order of magnitude as the wavelength, it is needed to solve Maxwell’s equations rigorously in order to obtain these diffraction efficiencies. Two of those methods are the rigorous coupled-wave analysis (RCWA) and the C method. In this paper a comparison is made between RCWA and the C method with respect to accuracy and speed. Restrictions are made to one-interface problems, which means that only two media are invol...
Over the last two hundred years, diffraction grating spectroscopy has unlocked fundamental discoveri...
Diffraction gratings have been an interesting field during the last decades. A great deal of researc...
A review of the rigorous coupled-wave analysis as applied to the diffraction of electro-magnetic wav...
Diffraction gratings are often used in optical metrology. When an electromagnetic wave is incident o...
In this work a set of simplified theories for predicting diffraction efficiencies of diffraction pha...
Periodic structures, called diffraction gratings, play an important role in optical lithography. The...
The semiconductor industry uses lithography machines for manufacturing complex integrated circuits (...
The diffraction of light is an important phenomenon with wide physical and engineering appli- cation...
The Fourier Modal Method (FMM, also called the Rigorous Coupled Wave Analysis, RCWA) is a numerical ...
We present a modification of a well-known mathematical model based on the Rigorous Coupled-Wave Anal...
The rigorous coupled-wave analysis (RCWA) is one of the most successful and widely used methods for ...
The rigorous coupled-wave analysis (RCWA) is a method to compute diffraction of a field by a given g...
In this work we make a comparative study between different theories to predict the efficiencies of t...
The C-method is one of the most efficient and versatile method designed for diffraction gratings. Th...
Over the last two hundred years, diffraction grating spectroscopy has unlocked fundamental discoveri...
Diffraction gratings have been an interesting field during the last decades. A great deal of researc...
A review of the rigorous coupled-wave analysis as applied to the diffraction of electro-magnetic wav...
Diffraction gratings are often used in optical metrology. When an electromagnetic wave is incident o...
In this work a set of simplified theories for predicting diffraction efficiencies of diffraction pha...
Periodic structures, called diffraction gratings, play an important role in optical lithography. The...
The semiconductor industry uses lithography machines for manufacturing complex integrated circuits (...
The diffraction of light is an important phenomenon with wide physical and engineering appli- cation...
The Fourier Modal Method (FMM, also called the Rigorous Coupled Wave Analysis, RCWA) is a numerical ...
We present a modification of a well-known mathematical model based on the Rigorous Coupled-Wave Anal...
The rigorous coupled-wave analysis (RCWA) is one of the most successful and widely used methods for ...
The rigorous coupled-wave analysis (RCWA) is a method to compute diffraction of a field by a given g...
In this work we make a comparative study between different theories to predict the efficiencies of t...
The C-method is one of the most efficient and versatile method designed for diffraction gratings. Th...
Over the last two hundred years, diffraction grating spectroscopy has unlocked fundamental discoveri...
Diffraction gratings have been an interesting field during the last decades. A great deal of researc...
A review of the rigorous coupled-wave analysis as applied to the diffraction of electro-magnetic wav...