We demonstrate that the use of a single SiO2 film, with thickness corresponding to one standing wave (SW) period allows the recording of deep photoresist structures on silicon substrates by laser interference, without use of any additional antireflecting coating. This condition corresponds just to the opposite thickness (half SW period) previously proposed for using the SiO2 films for phase-shifting the SW pattern. Theoretical and experimental results demonstrated that for the lithography of deep structures, the contrast of the SW pattern, the minimum light intensity of the SW pattern and the photoresist adhesion are the most important parameters of the process
We report a method for stress measurement and analysis in silicon oxide thin films using optical int...
In this chapter we explain how submicron gratings can be prepared by Laser Interference Lithography ...
It is of great importance to develop antireflective (AR) coatings and techniques because improved op...
We demonstrate that the use of a single SiO2 film, with thickness corresponding to one standing wave...
Submitted by Tiago Pereira da Silva (tiagps1@hotmail.com) on 2012-11-28T17:32:24Z No. of bitstream...
Standing wave effects have been seen throughout the history of microlithography. Due to standing wav...
Techniques of spectral reflectometry and interferometry are used for measuring small changes in thic...
Titanium oxide thin film, fabricated with tetraisopropyltitanate and oxygen by electron cyclotron re...
Single layer antireflection coatings (SLAR) consisting of nanoporous silica (NP SiO2) films are deve...
In this letter, we report on the high resolution patterning of a silicon surface without using a res...
We report a method for stress measurement and analysis in silicon oxide thin films using optical int...
We report a method for stress measurement and analysis in silicon oxide thin films using optical int...
In this paper we use spectrophotometric measurements and a Clustering Global Optimization procedure ...
In this paper we use spectrophotometric measurements and a Clustering Global Optimization procedure ...
In this work we report the results of the fabrication and simulation of antireflective coating (ARC)...
We report a method for stress measurement and analysis in silicon oxide thin films using optical int...
In this chapter we explain how submicron gratings can be prepared by Laser Interference Lithography ...
It is of great importance to develop antireflective (AR) coatings and techniques because improved op...
We demonstrate that the use of a single SiO2 film, with thickness corresponding to one standing wave...
Submitted by Tiago Pereira da Silva (tiagps1@hotmail.com) on 2012-11-28T17:32:24Z No. of bitstream...
Standing wave effects have been seen throughout the history of microlithography. Due to standing wav...
Techniques of spectral reflectometry and interferometry are used for measuring small changes in thic...
Titanium oxide thin film, fabricated with tetraisopropyltitanate and oxygen by electron cyclotron re...
Single layer antireflection coatings (SLAR) consisting of nanoporous silica (NP SiO2) films are deve...
In this letter, we report on the high resolution patterning of a silicon surface without using a res...
We report a method for stress measurement and analysis in silicon oxide thin films using optical int...
We report a method for stress measurement and analysis in silicon oxide thin films using optical int...
In this paper we use spectrophotometric measurements and a Clustering Global Optimization procedure ...
In this paper we use spectrophotometric measurements and a Clustering Global Optimization procedure ...
In this work we report the results of the fabrication and simulation of antireflective coating (ARC)...
We report a method for stress measurement and analysis in silicon oxide thin films using optical int...
In this chapter we explain how submicron gratings can be prepared by Laser Interference Lithography ...
It is of great importance to develop antireflective (AR) coatings and techniques because improved op...
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