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Phase stabilities and surface morphologies of (Ti{sub 1{minus}{ital x}}Zr{sub {ital x}})Si{sub 2} thin films on Si(100)

Journal Article · · Journal of Applied Physics
DOI:https://doi.org/10.1063/1.360479· OSTI ID:127569
; ;  [1]
  1. Department of Physics, North Carolina State University, Raleigh, North Carolina 27695-8202 (United States)
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The effects of zirconium content on the phase stabilities and the surface morphologies of Ti--Zr alloy disilicide thin films were examined. The (Ti{sub 1{minus}{ital x}}Zr{sub {ital x}})Si{sub 2} thin films were grown by codeposition of Ti and Zr alloys (200 A) onto Si(100) surfaces in ultrahigh vacuum and followed by {ital in} {ital situ} thermal annealing at temperatures between 650 and 1000 {degree}C. The structural properties of films were studied by {ital in} {ital situ} Raman scattering experiments and {ital ex} {ital situ} x-ray diffraction experiments. The (Ti{sub 1{minus}{ital x}}Zr{sub {ital x}})Si{sub 2} films with low Zr contents ({ital x}{lt}0.1) initially form a base-centered orthorhombic structure (C49 phase) and transform to a face-centered orthorhombic structure (C54 phase) at higher temperatures. The C49-to-C54 phase transition temperature increases with increasing Zr content. When the Zr content, {ital x}, is higher than 0.1, the C49 phase is stable in the temperature range of 700--1000 {degree}C, and the C49-to-C54 phase transition is not observed. We propose that increasing the Zr content in the alloy silicide films results in a decreased enthalpy difference between these two crystalline structures. The surface morphologies of the alloy disilicide films were studied using scanning electron microscopy, and the surface roughnesses were quantified using atomic force microscopy. Substrate coverages of the C49 (Ti{sub 1{minus}{ital x}}Zr{sub {ital x}})Si{sub 2} thin films on Si are larger compared to the C54 TiSi{sub 2} thin films with the same thicknesses. The agglomeration of the C49 alloy silicide thin films is less severe than for the C54 TiSi{sub 2} thin films, because the C49 (Ti{sub 1{minus}{ital x}}Zr{sub {ital x}})Si{sub 2} silicide thin films have lower surface and interface free energies than C54 TiSi{sub 2}. (Abstract Truncated)

DOE Contract Number:
FG05-89ER45384
OSTI ID:
127569
Journal Information:
Journal of Applied Physics, Journal Name: Journal of Applied Physics Journal Issue: 11 Vol. 78; ISSN JAPIAU; ISSN 0021-8979
Country of Publication:
United States
Language:
English

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Related Subjects

36 MATERIALS SCIENCE
AGGLOMERATION
CRYSTAL STRUCTURE
MORPHOLOGY
PHASE STUDIES
PHASE TRANSFORMATIONS
RAMAN SPECTRA
SURFACES
THIN FILMS
TITANIUM SILICIDES
X-RAY DIFFRACTION
ZIRCONIUM SILICIDES