Low-dielectric Constant MaterialsMaterials Research Society, 1998 - Electric insulators and insulation |
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Page 35
Plots of relative dielectric constant , dielectric loss and dielectric breakdown field
as a function of curing temperature at fixed curing time for a HSSQ spin - on glass
. Symbols represent the means and standard deviations of 15 - 20 ...
Plots of relative dielectric constant , dielectric loss and dielectric breakdown field
as a function of curing temperature at fixed curing time for a HSSQ spin - on glass
. Symbols represent the means and standard deviations of 15 - 20 ...
Page 300
Annealing of the sample at progressively higher temperatures in UHV causes a
gradual decrease in the CuSi relative Auger intensity , as shown in figure 3 . The
relative Cu intensity remains unchanged until ~ 300 K . Between 300 K and 600 ...
Annealing of the sample at progressively higher temperatures in UHV causes a
gradual decrease in the CuSi relative Auger intensity , as shown in figure 3 . The
relative Cu intensity remains unchanged until ~ 300 K . Between 300 K and 600 ...
Page 361
The resulting change in the physical dimensions of the film can be expressed as
the humidityinduced strain Ep ( relative change of the physical dimension ) . The
humidity - induced strain is typically in the same range as the temperature ...
The resulting change in the physical dimensions of the film can be expressed as
the humidityinduced strain Ep ( relative change of the physical dimension ) . The
humidity - induced strain is typically in the same range as the temperature ...
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Contents
Overview of Process Integration Issues for LowK Dielectrics | 3 |
Fundamental Aspects of Polymer Metallization | 15 |
LiquidPhase Deposition of LowK Organic | 27 |
Copyright | |
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Common terms and phrases
adhesion annealing applications atoms bonds calculated capacitance carbon cause characteristics chemical compared concentration copper crack curing decrease density dependence deposition depth determined developed devices dielectric constant diffusion e-beam effect electrical electron energy etch Figure fluorine frequency function glass heating higher hydrogen increase indicate integration interconnect interface layer less lines load low-k lower materials measured mechanical metal moisture observed obtained organic oxide oxygen peak performance plasma polished polyimide polymer polymerization porosity porous precursors present Proc properties pulse range ratio reaction reduced relative removal Research resistance samples shown in Figure shows silica silicon SiO2 spectra stability strength stress structure substrate surface Symp Table technique temperature thermal thickness thin films treatment values Volume wafer wiring xerogel
Bibliographic information
| Title | Low-dielectric Constant Materials Materials Research Society symposia proceedings |
| Publisher | Materials Research Society, 1998 |
| Original from | the University of Michigan |
| Digitized | 10 Dec 2007 |
| ISBN | 1558994173, 9781558994171 |
| Export Citation | BiBTeX EndNote RefMan |