2011
DOI: 10.1557/jmr.2010.62
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Noncontact, in-line measurement of boron concentration from ultrathin boron-doped epitaxial Si1–xGex layers on Si(100) by multiwavelength micro-Raman spectroscopy

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Cited by 12 publications
(7 citation statements)
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“…In the case of ultra thin epitaxial Si 1-x Ge x /Si, ultraviolet (UV) and/or near UV visible excitation wavelengths are frequently used. 34,43,44 The similarity of multiwavelength Raman spectra shown in Fig. 3(a) ∼ 3(c) and 3(d) ∼ 3(f) can be explained by the constant probing depth of ∼8 nm in Ge film under 457.9, 488.0 and 514.5 nm excitation.…”
Section: Resultsmentioning
confidence: 62%
“…In the case of ultra thin epitaxial Si 1-x Ge x /Si, ultraviolet (UV) and/or near UV visible excitation wavelengths are frequently used. 34,43,44 The similarity of multiwavelength Raman spectra shown in Fig. 3(a) ∼ 3(c) and 3(d) ∼ 3(f) can be explained by the constant probing depth of ∼8 nm in Ge film under 457.9, 488.0 and 514.5 nm excitation.…”
Section: Resultsmentioning
confidence: 62%
“…Details of Ge content monitoring using Raman spectroscopy can be found in previous reports. [25][26][27][28][29][30][31][32][33][34] Raman characterization of intermixing between Si and Ge in epitaxial Ge on Si, Si/Ge core-shell nanowires and Si/Ge/Si core-double shell nanowires after annealing has been reported. [35][36][37][38] Figures 9-11 show multiwavelength (457.9 nm, 488.0 nm and 514.5 nm) excitation Raman spectra in the wavenumber range of 490 cm −1 ∼ 550 cm −1 covering the Si peak at ∼520 cm −1 and Si-Si peak of Si 1-x Ge x from as received TiN/Ni/Si 1-x Ge x /SiO 2 /Si with various Ge content.…”
Section: Resultsmentioning
confidence: 99%
“…The details of the system and its applications can be found in previous publications. [23][24][25] The excitation laser beam spot size was in the range of ∼0.5 μm in diameter. The laser power at the wafer surface was 5 mW to 20 mW.…”
Section: Methodsmentioning
confidence: 99%
“…28 By selecting appropriate excitation wavelengths for desired probing depths, variations in crystalline lattice quality can be examined. [23][24][25] Figure 10 shows 363.8 nm and 441.6 nm excited Raman spectra from all wafers, before and after plasma etching, under various TCP and bias RF power conditions, in groups, by type of wafers. Exposure time was kept constant for easy Raman signal intensity comparisons.…”
Section: Room Temperature Photoluminescence (Rtpl)-figuresmentioning
confidence: 99%