Low-dielectric Constant MaterialsMaterials Research Society, 1995 - Electric insulators and insulation |
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Page 73
All measurements were carried out in 0 / 20 mode . The 20 scan data were
collected at 0 . 02° intervals over the range of 3° - 60° and the scan speed was 0 .
4° ( 20 ) / min . The measured WAXD data were corrected for background .
All measurements were carried out in 0 / 20 mode . The 20 scan data were
collected at 0 . 02° intervals over the range of 3° - 60° and the scan speed was 0 .
4° ( 20 ) / min . The measured WAXD data were corrected for background .
Page 160
Figure 5 : Dielectric resonator for substrates is then excited in the TE018 mode
and a resonance of the combined post - air - material system is obtained .
Nishikawa et al . ( 51 ) have used the finite element method to analyze this
system ( see ...
Figure 5 : Dielectric resonator for substrates is then excited in the TE018 mode
and a resonance of the combined post - air - material system is obtained .
Nishikawa et al . ( 51 ) have used the finite element method to analyze this
system ( see ...
Page 161
The main difficulty in this technique is mode identification and degenerate modes
. The method has the advantage that the error introduced by the sample length is
smaller than measurements of resonances across the sample such as in the ...
The main difficulty in this technique is mode identification and degenerate modes
. The method has the advantage that the error introduced by the sample length is
smaller than measurements of resonances across the sample such as in the ...
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Contents
VMethods and Needs for Low K Material Research | 5 |
Investigations of the Low Dielectric Constant Fluorinated | 29 |
Vapor Deposition of Very Low K Polymer Films | 45 |
Copyright | |
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absorption addition adhesion aerogels alternating annealing applications bond bulk capacitance chemical circuit coating coefficient compared copolyimide copolymer copper cured decrease defects density deposition determined device dielectric properties effect electrical electronic energy etch field Figure film thickness fluorinated frequency function glass higher IEEE imaging improve in-plane increase indicate initial integrated interconnect interlayer dielectric layer light loss low dielectric constant lower materials measurements mechanical metal method microelectronic Microwave modulus moisture monomers observed obtained optical organic oxide Parylene patterns performance permittivity planarization plasma polishing polyimide film polymer polymeric prepared properties range reduce reported requirements resistance resonators sample shown in Figure shows silica silicon SiO2 SOG film solution stress structure studied substrate surface Table technique Technology Teflon temperature thermal thermal expansion thermal stability thickness thin films values vapor various Volume wafers
Bibliographic information
| Title | Low-dielectric Constant Materials Materials Research Society symposia proceedings |
| Publisher | Materials Research Society, 1995 |
| Original from | the University of Michigan |
| Digitized | 10 Dec 2007 |
| ISBN | 1558992847, 9781558992849 |
| Export Citation | BiBTeX EndNote RefMan |