Photoluminescence of Tb{sup 3+} doped SiN{sub x} films grown by plasma-enhanced chemical vapor deposition

Room temperature photoluminescence (PL) properties of the Tb{sup 3+} ion implanted nonstoichiometric silicon nitride (Tb{sup 3+}:SiN{sub x}) and silicon dioxide (Tb{sup 3+}:SiO{sub x}) were studied. The films were deposited by plasma-enhanced chemical vapor deposition and then annealed at different...

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Veröffentlicht in:	Journal of applied physics 2006-10, Vol.100 (8)
Hauptverfasser:	Yuan Zhizhong, Li Dongsheng, Wang Minghua, Chen Peiliang, Gong Daoren, Wang Lei, Yang Deren
Format:	Artikel
Sprache:	eng
Schlagworte:	ANNEALING CHEMICAL VAPOR DEPOSITION COATINGS CRYSTAL DEFECTS DOPED MATERIALS ENERGY TRANSFER ION IMPLANTATION MATERIALS SCIENCE PHOTOLUMINESCENCE PLASMA SILICON NITRIDES SILICON OXIDES STOICHIOMETRY TEMPERATURE DEPENDENCE TEMPERATURE RANGE 0273-0400 K TEMPERATURE RANGE 1000-4000 K TERBIUM IONS THIN FILMS TIME DEPENDENCE
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creator	Yuan Zhizhong Li Dongsheng Wang Minghua Chen Peiliang Gong Daoren Wang Lei Yang Deren
description	Room temperature photoluminescence (PL) properties of the Tb{sup 3+} ion implanted nonstoichiometric silicon nitride (Tb{sup 3+}:SiN{sub x}) and silicon dioxide (Tb{sup 3+}:SiO{sub x}) were studied. The films were deposited by plasma-enhanced chemical vapor deposition and then annealed at different temperatures for 1 h in flowing N{sub 2} before or after the implantation. Results show that there are four intense PL peaks due to the intra-4f transitions of Tb{sup 3+} in the wavelength from 470 to 625 nm for both kinds of films. Moreover, after postannealing at 1000 deg. C, the integrated PL intensity of Tb{sup 3+}:SiN{sub x} is much higher than that of Tb{sup 3+}:SiO{sub x}. The energy transfer from the defect related energy levels to the Tb{sup 3+} ions will enhance the {sup 5}D{sub 4}{yields}{sup 7}F{sub k} (k=3-6) luminescence of Tb{sup 3+} ions.
doi_str_mv	10.1063/1.2358301
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The films were deposited by plasma-enhanced chemical vapor deposition and then annealed at different temperatures for 1 h in flowing N{sub 2} before or after the implantation. Results show that there are four intense PL peaks due to the intra-4f transitions of Tb{sup 3+} in the wavelength from 470 to 625 nm for both kinds of films. Moreover, after postannealing at 1000 deg. C, the integrated PL intensity of Tb{sup 3+}:SiN{sub x} is much higher than that of Tb{sup 3+}:SiO{sub x}. 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The films were deposited by plasma-enhanced chemical vapor deposition and then annealed at different temperatures for 1 h in flowing N{sub 2} before or after the implantation. Results show that there are four intense PL peaks due to the intra-4f transitions of Tb{sup 3+} in the wavelength from 470 to 625 nm for both kinds of films. Moreover, after postannealing at 1000 deg. C, the integrated PL intensity of Tb{sup 3+}:SiN{sub x} is much higher than that of Tb{sup 3+}:SiO{sub x}. The energy transfer from the defect related energy levels to the Tb{sup 3+} ions will enhance the {sup 5}D{sub 4}{yields}{sup 7}F{sub k} (k=3-6) luminescence of Tb{sup 3+} ions.</abstract><cop>United States</cop><doi>10.1063/1.2358301</doi></addata></record>
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subjects	ANNEALING CHEMICAL VAPOR DEPOSITION COATINGS CRYSTAL DEFECTS DOPED MATERIALS ENERGY TRANSFER ION IMPLANTATION MATERIALS SCIENCE PHOTOLUMINESCENCE PLASMA SILICON NITRIDES SILICON OXIDES STOICHIOMETRY TEMPERATURE DEPENDENCE TEMPERATURE RANGE 0273-0400 K TEMPERATURE RANGE 1000-4000 K TERBIUM IONS THIN FILMS TIME DEPENDENCE
title	Photoluminescence of Tb{sup 3+} doped SiN{sub x} films grown by plasma-enhanced chemical vapor deposition
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