S. S. Jiang scite author profile

We have examined the Raman spectra of violet and infrared emitting Ge+-implanted SiO2 films with special emphasis upon annealing temperature (AT) dependence of Raman scattering. We found that the complete spectrum mainly consists of three bands at 220–280, 300, and 430 cm−1, corresponding to scattering of Ge-related components, Ge nanocrystallites, and localized Si–Si optical phonons in the Ge neighborhoods, respectively. The Ge crystalline band shows an obvious AT dependence. The theoretical result from the phonon confinement model can predict its linewidth change with AT, but cannot explain its constant peak frequency. Based on the experimental result from x-ray diffraction, we attributed the discrepancy mainly to the compressive stress exerted on Ge nanocrystallites, which leads to the upshift of Ge crystallite peak thereby basically compensating the downshift caused by the confinement on phonon frequency.

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Perfect transmission and self-similar optical transmission spectra in symmetric Fibonacci-class multilayers

Huang

Jiang

Peng

et al. 2001

Phys. Rev. B

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Raman scattering of alternating nanocrystalline silicon/amorphous silicon multilayers

Siu

Song

et al. 1996

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Nanocrystallite size distribution and structural properties in alternating hydrogenated nanocrystalline silicon/amorphous silicon multilayers were investigated by means of Raman scattering. The obtained Raman spectra show a broad peak at ϳ480 cm Ϫ1 from amorphous Si and some small peaks superposed on the broad peak. According to the positions of the crystallite peak, the mean crystallite size and volume fraction of the crystalline were calculated. Since these small peaks have strong size dependence of their relative intensities, an effect induced by the atomic vibrations from the near-surface region of nanocrystals is considered to be responsible for the modification of the vibrational properties and the stable photoluminescence from our samples.

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Dimerlike positional correlation and resonant transmission of electromagnetic waves in aperiodic dielectric multilayers

et al. 2004

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In this paper, we investigate transmission of electromagnetic wave through aperiodic dielectric multilayers. A generic feature shown is that the mirror symmetry in the system can induce the resonant transmission, which originates from the positional correlations ͑for example, presence of dimers͒ in the system. Furthermore, the resonant transmission can be manipulated at a specific wavelength by tuning aperiodic structures with internal symmetry. The theoretical results are experimentally proved in the optical observation of aperiodic SiO 2 /TiO 2 multilayers with internal symmetry. We expect that this feature may have potential applications in optoelectric devices such as the wavelength division multiplexing system.

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The formation mechanisms of dislocations and negative crystals in LiB3O5 single crystals

Jiang

Huang

Zeng

et al. 1996

Journal of Crystal Growth

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S. S. Jiang

Annealing temperature dependence of Raman scattering in Ge+-implanted SiO2 films

Perfect transmission and self-similar optical transmission spectra in symmetric Fibonacci-class multilayers

Raman scattering of alternating nanocrystalline silicon/amorphous silicon multilayers

Dimerlike positional correlation and resonant transmission of electromagnetic waves in aperiodic dielectric multilayers

The formation mechanisms of dislocations and negative crystals in LiB3O5 single crystals

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