Nanometer precision metrology of submicron Cu/SiO2 interconnects using fluorescence and transmission x-ray microscopy

Nanometer precision metrology of submicron Cu/SiO2 interconnects using fluorescence and transmission x-ray microscopy

We used hard x-ray fluorescence and soft x-ray transmission microscopy to quantitatively measure “in situ” Cu/SiO2 interconnect dimensions down to 0.3 μm dimensions. We describe methods and analysis techniques for measuring submicron linewidths, lengths, and thicknesses with accuracies of 30–60 nm p...

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Veröffentlicht in:Journal of applied physics 2003-11, Vol.94 (9), p.6040-6049
Hauptverfasser: Xu, Guangyong, Eastman, D. E., Lai, B., Cai, Z., McNulty, I., Frigo, S., Noyan, I. C., Hu, C. K.
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container_end_page 6049
container_issue 9
container_start_page 6040
container_title Journal of applied physics
container_volume 94
creator Xu, Guangyong
Eastman, D. E.
Lai, B.
Cai, Z.
McNulty, I.
Frigo, S.
Noyan, I. C.
Hu, C. K.
description We used hard x-ray fluorescence and soft x-ray transmission microscopy to quantitatively measure “in situ” Cu/SiO2 interconnect dimensions down to 0.3 μm dimensions. We describe methods and analysis techniques for measuring submicron linewidths, lengths, and thicknesses with accuracies of 30–60 nm precision. The dimensions and shape of submicron Cu vias, W lines, and a 20 nm Ta liner and an electromigration defect (void) were determined by these methods. These nondestructive techniques promise to be useful for nanometer precision metrology studies of a variety of materials systems.
doi_str_mv 10.1063/1.1614430
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title Nanometer precision metrology of submicron Cu/SiO2 interconnects using fluorescence and transmission x-ray microscopy
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