Add to ORKGThis paper is the first of three parts summarizing the research to use diffractive optics at the CO2 laser wavelength to drill microvias in the 40-50 urn range for organic packaging applications. This first part mainly focuses on mathematical modeling of the drilling process, which is used to define the characteristics of the laser beam necessary to achieve the required geometry of the microvias. These laser characteristics and the properties of the incoming laser beam of the CO2 laser system are then used to provide a deterministic approach for obtaining performance data for the diffractive optics design. The targeted optics are designed based on the modeling result and are then integrated into a prototype system to execute the drilling op...
An experimental study was performed to compare the drilling effectiveness of using a 50 W CO2 laser ...
An experimental study was performed to compare the drilling effectiveness of using a 50 W CO2 laser ...
An experimental study was performed to compare the drilling effectiveness of using a 50 W CO2 laser ...
This paper is the first of three parts summarizing the research to use diffractive optics at the CO2...
Thermal modeling is essential to understand the laser-materials interactions and to control laser dr...
Thermal modeling is essential to understand the laser-materials interactions and to control laser dr...
A numerical thermal model is presented for laser microvias drilling in multilayer electronic substra...
A finite difference thermal model is developed to analyze volumetric heating during laser drilling. ...
A finite difference thermal model is developed to analyze volumetric heating during laser drilling. ...
Drilling of microvias with Nd : YAG laser of wavelength 1.06 νm is studied for polymer materials use...
The key problems associated with laser processing of ceramics are centred on the induction of high t...
Drilling of microvias with Nd:YAG laser of wavelength 1.06 mu m is studied for polymer materials use...
Microvias drilling in polymer-copper-polymer multilayer substrate for high density electronic packag...
Background: Laser micromachining is currently used in the MEMS production to replace the traditional...
Generally laser energy is considered to interact only with the substrate surface, as in metals, wher...
An experimental study was performed to compare the drilling effectiveness of using a 50 W CO2 laser ...
An experimental study was performed to compare the drilling effectiveness of using a 50 W CO2 laser ...
An experimental study was performed to compare the drilling effectiveness of using a 50 W CO2 laser ...
This paper is the first of three parts summarizing the research to use diffractive optics at the CO2...
Thermal modeling is essential to understand the laser-materials interactions and to control laser dr...
Thermal modeling is essential to understand the laser-materials interactions and to control laser dr...
A numerical thermal model is presented for laser microvias drilling in multilayer electronic substra...
A finite difference thermal model is developed to analyze volumetric heating during laser drilling. ...
A finite difference thermal model is developed to analyze volumetric heating during laser drilling. ...
Drilling of microvias with Nd : YAG laser of wavelength 1.06 νm is studied for polymer materials use...
The key problems associated with laser processing of ceramics are centred on the induction of high t...
Drilling of microvias with Nd:YAG laser of wavelength 1.06 mu m is studied for polymer materials use...
Microvias drilling in polymer-copper-polymer multilayer substrate for high density electronic packag...
Background: Laser micromachining is currently used in the MEMS production to replace the traditional...
Generally laser energy is considered to interact only with the substrate surface, as in metals, wher...
An experimental study was performed to compare the drilling effectiveness of using a 50 W CO2 laser ...
An experimental study was performed to compare the drilling effectiveness of using a 50 W CO2 laser ...
An experimental study was performed to compare the drilling effectiveness of using a 50 W CO2 laser ...