Near-infrared emission from Pr-doped borophosphate glass for broadband telecommunication

Broadband near-infrared emission from Pr-doped borophosphate glass was investigated. The emission band had three peaks centered at ∼1040, 1163, and 1470nm with full widths at half maximum of 108, 147, and 205nm, respectively. These figures cover the entire spectrum of fiber-optic communication bands...

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Published in	Journal of luminescence Vol. 135; pp. 38 - 41
Main Authors	Sheng, Qiuchun, Wang, Xiaolin, Chen, Danping
Format	Journal Article
Language	English
Published	Amsterdam Elsevier B.V 01.03.2013 Elsevier
Subjects	Bands Borophosphate glass Broadband Broadband emission Condensed matter: electronic structure, electrical, magnetic, and optical properties Cross sections Disordered solids Emission Exact sciences and technology Fiber optics Glass Infrared and raman spectra and scattering Near-infrared Optical fibers Optical properties and condensed-matter spectroscopy and other interactions of matter with particles and radiation Physics Pr-doped Product life cycle Borophosphate glass Pr-doped Broadband emission Near-infrared Doped materials Infrared spectra Judd Ofelt effect Lifetime Stimulated emission Emission spectra Praseodymium additions Absorption spectra Borophosphare glass
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ISSN	0022-2313 1872-7883
DOI	10.1016/j.jlumin.2012.10.040

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Abstract	Broadband near-infrared emission from Pr-doped borophosphate glass was investigated. The emission band had three peaks centered at ∼1040, 1163, and 1470nm with full widths at half maximum of 108, 147, and 205nm, respectively. These figures cover the entire spectrum of fiber-optic communication bands. The emission lifetimes at 1040, 1163, and 1470nm were 68, 321, and 68μs respectively. The product στ of stimulated emission cross-section (σ) and lifetime (τ) was 3.44×10−23cm2s. These results indicate that the Pr-doped glass can be used as an amplification medium for tunable lasers and broadband optical amplifiers for wavelength division multiplexing transmission system applications. ► Broadband near-infrared emission from Pr-doped PBAY glass was investigated. ► Mechanism of Pr3+ luminescence was discussed. ► The infrared emissions were ascribed to the 3P0→1G4, 1G4→3H5, and 1D2→1G4 transitions of Pr3+ ions. ► The στ product of Pr3+ in the PBAY glass was calculated to be 3.44×10−23cm2s.
AbstractList	Broadband near-infrared emission from Pr-doped borophosphate glass was investigated. The emission band had three peaks centered at similar to 1040, 1163, and 1470 nm with full widths at half maximum of 108, 147, and 205 nm, respectively. These figures cover the entire spectrum of fiber-optic communication bands. The emission lifetimes at 1040, 1163, and 1470 nm were 68, 321, and 68 mu s respectively. The product sigma tau of stimulated emission cross-section ( sigma ) and lifetime ( tau ) was 3.4410-23 cm2 s. These results indicate that the Pr-doped glass can be used as an amplification medium for tunable lasers and broadband optical amplifiers for wavelength division multiplexing transmission system applications. Broadband near-infrared emission from Pr-doped borophosphate glass was investigated. The emission band had three peaks centered at ∼1040, 1163, and 1470nm with full widths at half maximum of 108, 147, and 205nm, respectively. These figures cover the entire spectrum of fiber-optic communication bands. The emission lifetimes at 1040, 1163, and 1470nm were 68, 321, and 68μs respectively. The product στ of stimulated emission cross-section (σ) and lifetime (τ) was 3.44×10−23cm2s. These results indicate that the Pr-doped glass can be used as an amplification medium for tunable lasers and broadband optical amplifiers for wavelength division multiplexing transmission system applications. ► Broadband near-infrared emission from Pr-doped PBAY glass was investigated. ► Mechanism of Pr3+ luminescence was discussed. ► The infrared emissions were ascribed to the 3P0→1G4, 1G4→3H5, and 1D2→1G4 transitions of Pr3+ ions. ► The στ product of Pr3+ in the PBAY glass was calculated to be 3.44×10−23cm2s.
Author	Chen, Danping Sheng, Qiuchun Wang, Xiaolin
Author_xml	– sequence: 1 givenname: Qiuchun surname: Sheng fullname: Sheng, Qiuchun organization: Key Laboratory of Materials for High Power Laser, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Shanghai 201800, PR China – sequence: 2 givenname: Xiaolin surname: Wang fullname: Wang, Xiaolin organization: Key Laboratory of Materials for High Power Laser, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Shanghai 201800, PR China – sequence: 3 givenname: Danping surname: Chen fullname: Chen, Danping email: dpchen2008@yahoo.com.cn organization: Key Laboratory of Materials for High Power Laser, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Shanghai 201800, PR China
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Keywords	Borophosphate glass Pr-doped Broadband emission Near-infrared Doped materials Infrared spectra Judd Ofelt effect Lifetime Stimulated emission Emission spectra Praseodymium additions Absorption spectra Borophosphare glass
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Snippet	Broadband near-infrared emission from Pr-doped borophosphate glass was investigated. The emission band had three peaks centered at ∼1040, 1163, and 1470nm with... Broadband near-infrared emission from Pr-doped borophosphate glass was investigated. The emission band had three peaks centered at similar to 1040, 1163, and...
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SubjectTerms	Bands Borophosphate glass Broadband Broadband emission Condensed matter: electronic structure, electrical, magnetic, and optical properties Cross sections Disordered solids Emission Exact sciences and technology Fiber optics Glass Infrared and raman spectra and scattering Near-infrared Optical fibers Optical properties and condensed-matter spectroscopy and other interactions of matter with particles and radiation Physics Pr-doped Product life cycle
Title	Near-infrared emission from Pr-doped borophosphate glass for broadband telecommunication
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