Add to ORKGWe present a study of the sidewall surface quality inside microchannels fabricated in fused silica glass by femtosecond laser pulses and chemical etching. Multiple combinations of laser exposure and etching solution parameters were examined. Results of scanning electron microscopy, atomic force microscopy, and optical reflection analyses of the surfaces are presented. The results obtained demonstrate the feasibility of optical quality surface fabrication, which in turn demonstrates the feasibility of fabricating complex integrated devices containing microfluidic channels and optical waveguides in the glass substrates
Femtosecond laser irradiation followed by chemical etching (FLICE) is a novel micro-fabrication tech...
Laser direct processing of glass has been challenging due to the brittle nature and poor heat transf...
The use of low-energy femtosecond laser beam combined with chemical etching has been proven to be an...
We present a study of the sidewall surface quality inside microchannels fabricated in fused silica g...
We present novel results obtained in the fabrication of high-aspect ratio micro-fluidic microstructu...
We use the combination of femtosecond laser dielectric modification and selective chemical etching t...
The light intensity in a focused femtosecond laser pulse can be high enough to initiate non-linear a...
Abstract: We report on the fabrication of 3D micro-structures in fused silica glass using chemical e...
This paper provides an overview of the rather new field concerning the applications of femtosecond l...
Microfabrication of glasses using laser assisted chemical etching was first demonstrated in 2001 by ...
Precision machining of micro holes and channels on glass has attracted great interest due to its hig...
We present, to the best of our knowledge, first demonstration of a direct three-dimensional (3D) mic...
International audienceFemtosecond laser 3D processing technologies of transparent dielectrics have k...
We report on the fabrication of shape-controlled microchannels in fused silica by femtosecond laser ...
Fabrication of optical waveguides in glasses and crystals is very common for many applications in in...
Femtosecond laser irradiation followed by chemical etching (FLICE) is a novel micro-fabrication tech...
Laser direct processing of glass has been challenging due to the brittle nature and poor heat transf...
The use of low-energy femtosecond laser beam combined with chemical etching has been proven to be an...
We present a study of the sidewall surface quality inside microchannels fabricated in fused silica g...
We present novel results obtained in the fabrication of high-aspect ratio micro-fluidic microstructu...
We use the combination of femtosecond laser dielectric modification and selective chemical etching t...
The light intensity in a focused femtosecond laser pulse can be high enough to initiate non-linear a...
Abstract: We report on the fabrication of 3D micro-structures in fused silica glass using chemical e...
This paper provides an overview of the rather new field concerning the applications of femtosecond l...
Microfabrication of glasses using laser assisted chemical etching was first demonstrated in 2001 by ...
Precision machining of micro holes and channels on glass has attracted great interest due to its hig...
We present, to the best of our knowledge, first demonstration of a direct three-dimensional (3D) mic...
International audienceFemtosecond laser 3D processing technologies of transparent dielectrics have k...
We report on the fabrication of shape-controlled microchannels in fused silica by femtosecond laser ...
Fabrication of optical waveguides in glasses and crystals is very common for many applications in in...
Femtosecond laser irradiation followed by chemical etching (FLICE) is a novel micro-fabrication tech...
Laser direct processing of glass has been challenging due to the brittle nature and poor heat transf...
The use of low-energy femtosecond laser beam combined with chemical etching has been proven to be an...