D. Moutonnet scite author profile

Luminescence spectra and SIMS measurements of Er-doped silicon are presented in this paper. Luminescence was found to be stronger in Czochralski-grown Si crystals, known to contain up to 1018 cm-3 of oxygen center. Direct role played by oxygen impurities in the optical activation of the 1.54 µm luminescence was demonstrated by implanting oxygen into Er implanted layers in silicon at concentrations comparable to those of Er. Possible mechanisms of enhancement of photoluminescence are discussed.

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Optical Activation of Ion Implanted Rare-Earths

Favennec

L'Haridon

Moutonnet

et al. 1993

MRS Proc.

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A review of the main results concerning the ion implantation of the rare-earth elements is given.To obtain the best optical activation of rare-earths, we attempt to optimize the implantation (energy, dose) and annealing (temperature, duration) conditions. The studied materials are Si, II-VI binaries (ZnTe, CdS), III-V binaries (GaAs, InP), III-V ternaries (GaAlAs, GaInAs) and III-V quaternaries (GaInAsP).

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Luminescent Er doped microparticles in a semiconductor matrix

Favennec¹,

L'Haridon²,

Moutonnet³

et al. 1990

Electron. Lett. (UK)

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Intra-4f-shell transitions at room temperature of Er3+ ions in Ca1−xErxF2+x thin films grown on Si(100)

Barrière

Raoux

Garcia

et al. 1994

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Intra-4f-shell transitions of Er3+ ions in Ca1−xErxF2+x thin films were studied by means of photoluminescence (PL) and cathodoluminescence (CL) measurements at room temperature. The samples, with x varying from 0.01 to 0.2, were epitaxially grown on Si(100) substrates by sublimation of solid solution powders. Using the 488-nm line of an Ar+-ion laser as the excitation source, it is shown that the films present strong PL lines corresponding to the internal transitions between the 4S3/2,4F9/2,4I11/2, and 4I13/2 excited levels and the 4I15/2 fundamental state of Er3+ (4f11) ions. Their centers of gravity were pointed out at λ=533, 650, 980, and 1530 nm, respectively. These electronic transitions were also evidenced by means of the CL technique. Moreover, this technique showed that the luminescence is uniform in all points of the layers. The PL intensities vary considerably as a function of the erbium substitution rate. In the visible range the strongest luminescence was found for x less than 0.01, while for the 1530-nm line (which presents evident potential applications for optical communications) the highest luminescence intensity corresponds to x close to 0.16. The refractive index (n) of the layers also varies with the erbium concentration. For a 1.3-μm incident radiation, n continuously increases from 1.425 to 1.466 when x varies from 0.035 to 0.19. This result shows that these structures can lead to the realization of plane optical waveguides.

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D. Moutonnet

Luminescence of erbium implanted in various semiconductors: IV, III-V and II-VI materials

Optical Activation of Er³⁺ Implanted in Silicon by Oxygen Impurities

Optical Activation of Ion Implanted Rare-Earths

Luminescent Er doped microparticles in a semiconductor matrix

Intra-4f-shell transitions at room temperature of Er3+ ions in Ca1−xErxF2+x thin films grown on Si(100)

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D. Moutonnet

Luminescence of erbium implanted in various semiconductors: IV, III-V and II-VI materials

Optical Activation of Er3+ Implanted in Silicon by Oxygen Impurities

Optical Activation of Ion Implanted Rare-Earths

Luminescent Er doped microparticles in a semiconductor matrix

Intra-4f-shell transitions at room temperature of Er3+ ions in Ca1−xErxF2+x thin films grown on Si(100)

Contact Info

Product

Resources

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Optical Activation of Er³⁺ Implanted in Silicon by Oxygen Impurities