Abstract

A monolithic Bismuth-Aluminium codoped silica glass was prepared from nano-porous silica xerogels using a conventional solution doping technique with a heterotrinuclear complex and subsequent sintering. This novel approach enabled the preparation of the silica glass which contains a single luminescent center, namely an Al-connected Bi-center.

© 2012 OSA

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    [CrossRef]
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    [CrossRef]
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    [CrossRef]
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    [CrossRef] [PubMed]
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    [CrossRef]
  7. S. Yoo, M. P. Kalita, J. Nilsson, and J. Sahu, “Excited state absorption measurement in the 900–1250 nm wavelength range for bismuth-doped silicate fibers,” Opt. Lett.34, 530–532 (2009).
    [CrossRef] [PubMed]
  8. S. Khonthon, S. Morimoto, Y. Arai, and Y. Ohishi, “Luminescence characteristics of Te- and Bi-doped glasses and glass ceramics,” J. Ceram. Soc. Jpn.115, 259–263 (2007).
    [CrossRef]
  9. M. Peng, C. Zollfrank, and L. Wondraczek, “Origin of broad NIR photoluminescence in bismuthate glass and Bi-doped glasses at room temperature,” J. Phys. Condens. Matter21, 285106 (2009).
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    [CrossRef] [PubMed]
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    [CrossRef]
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    [CrossRef]
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    [CrossRef]
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    [CrossRef]
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  26. I. Razdobreev, H. El Hamzaoui, L. Bigot, V. Arion, G. Bouwmans, A. Le Rouge, and M. Bouazaoui, “Optical properties of Bismuth-doped silica core photonic crystal fiber,” Opt. Express18, 19479–19484 (2010).
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    [CrossRef]
  29. I. A. Bufetov, S. L. Semenov, V. V. Vel’miskin, S. V. Firstov, G. A. Bufetova, and E. M. Dianov, “Optical properties of active bismuth centres in silica fibres containing no other dopants,” Quantum Electron.40, 639–641 (2010).
    [CrossRef]
  30. S. V. Firstov, V. F. Khopin, I. A. Bufetov, E. G. Firstova, A. N. Guryanov, and E. M. Dianov, “Combined excitation-emission spectroscopy of bismuth active centers in optical fibers,” Opt. Express19, 19551–19561 (2011).
    [CrossRef] [PubMed]
  31. I. Razdobreev, V. Yu. Ivanov, L. Bigot, M. Godlewski, and E. F. Kustov, “Optically detected magnetic resonance in bismuth-doped silica glass,” Opt. Lett.34, 2691–2693 (2010).
    [CrossRef]
  32. I. A. Bufetov, M. A. Melkumov, S. V. Firstov, A. V. Shubin, S. L. Semenov, V. V. Vel’miskin, A. E. Levchenko, E. G. Firstova, and E. M. Dianov, “Optical gain and laser generation in bismuth-doped silica fibers free of other dopants,” Opt. Lett.36, 166–168 (2011).
    [CrossRef] [PubMed]

2011 (4)

2010 (8)

I. A. Bufetov, S. L. Semenov, V. V. Vel’miskin, S. V. Firstov, G. A. Bufetova, and E. M. Dianov, “Optical properties of active bismuth centres in silica fibres containing no other dopants,” Quantum Electron.40, 639–641 (2010).
[CrossRef]

I. Razdobreev, V. Yu. Ivanov, L. Bigot, M. Godlewski, and E. F. Kustov, “Optically detected magnetic resonance in bismuth-doped silica glass,” Opt. Lett.34, 2691–2693 (2010).
[CrossRef]

I. Razdobreev, H. El Hamzaoui, V. Yu. Ivanov, E. F. Kustov, B. Capoen, and M. Bouazaoui, “Optical spectroscopy of Bismuth-doped pure silica fiber preform,” Opt. Lett.35, 1341–1343 (2010).
[CrossRef] [PubMed]

I. Razdobreev, H. El Hamzaoui, L. Bigot, V. Arion, G. Bouwmans, A. Le Rouge, and M. Bouazaoui, “Optical properties of Bismuth-doped silica core photonic crystal fiber,” Opt. Express18, 19479–19484 (2010).
[CrossRef] [PubMed]

B. Denker, B. Galagan, V. Osiko, I. Shulman, S. Sverchkov, and E. Dianov, “Factors affecting the formation of near infrared-emitting optical centers in Bi-doped glasses,” Appl. Phys. B98, 455–458 (2010).
[CrossRef]

H. El Hamzaoui, L. Courtheoux, V. Nguyen, E. Berrier, A. Favre, L. Bigot, M. Bouazaoui, and B. Capoen, “From porous silica xerogels to bulk optical glasses: The control of densification,” Mater. Chem. Phys.121, 83–88 (2010).
[CrossRef]

A. S. Kurkov, E. M. Sholokhov, A. V. Marakulin, and L. A. Minashina, “Effect of active-ion concentration on holmium fibre laser efficiency,” Quantum Electron.40, 386–388 (2010).
[CrossRef]

L. I. Bulatov, V. M. Mashinsky, V. V. Dvoyrin, E. F. Kustov, and E. M. Dianov, “Luminescent properties of bismuth centres in aluminosilicate optical fibres,” Quantum Electron.40, 153–159 (2010).
[CrossRef]

2009 (5)

M. Peng, C. Zollfrank, and L. Wondraczek, “Origin of broad NIR photoluminescence in bismuthate glass and Bi-doped glasses at room temperature,” J. Phys. Condens. Matter21, 285106 (2009).
[CrossRef] [PubMed]

I. Bufetov and E. Dianov, “Bi-doped fiber lasers,” Laser Phys. Lett.6, 487–504 (2009).
[CrossRef]

B. Denker, B. Galagan, V. Osiko, I. Shulman, S. Sverchkov, and E. Dianov, “Absorption and emission properties of Bi-doped Mg-Al-Si oxide glass system,” Appl. Phys. B95, 801–805 (2009).
[CrossRef]

S. Yoo, M. P. Kalita, J. Nilsson, and J. Sahu, “Excited state absorption measurement in the 900–1250 nm wavelength range for bismuth-doped silicate fibers,” Opt. Lett.34, 530–532 (2009).
[CrossRef] [PubMed]

H.-T. Sun, Y. Miwa, F. Shimaoka, M. Fujii, A. Hosokawa, M. Mizuhata, S. Hayashi, and S. Deki, “Superbroad-band near-IR nano-optical source based on bismuth-doped high-silica nanocrystalline zeolites,” Opt. Lett.34, 1219–1221 (2009).
[CrossRef] [PubMed]

2008 (5)

2007 (2)

S. Khonthon, S. Morimoto, Y. Arai, and Y. Ohishi, “Luminescence characteristics of Te- and Bi-doped glasses and glass ceramics,” J. Ceram. Soc. Jpn.115, 259–263 (2007).
[CrossRef]

I. Razdobreev, L. Bigot, V. Pureur, A. Favre, G. Bowmans, and M. Douay, “Efficient all-fiber bismuth-doped laser,” Appl. Phys. Lett.90, 031103 (2007).
[CrossRef]

2006 (2)

C. Focsa, C. Mihesan, M. Ziskind, B. Chazallon, E. Therssen, P. Desgroux, and J.- L. Destombe, “Wavelength-selective vibrationally excited photodesorption with tunable IR sources,” J. Phys.: Condens. Matter18, S1357–S1387 (2006).
[CrossRef]

A. V. Kir’yanov, Y. O. Barmenkov, I. L. Martinez, A. S. Kurkov, and E. M. Dianov, “Cooperative luminescence and absorption in Ytterbium-doped silica fiber and the fiber nonlinear transmission coefficient at λ = 980 nm with a regard to the Ytterbium ion-pairs effect,” Opt. Express14, 3981–3992 (2006).
[CrossRef]

2005 (1)

E. M. Dianov, V. V. Dvoyrin, V. M. Mashinsky, A. A. Umnikov, M. V. Yashkov, and A. N. Gur’yanov, “CW bismuth fibre laser,” Quantum Electron.35, 1083–1084 (2005).
[CrossRef]

2004 (1)

J. H. Thurston, D. Trahan, T. Ould-Ely, and K. H. Whitmire, “Toward a general strategy for the synthesis of heterobimetallic coordination complexes for use as precursors to metal oxide materials: Synthesis, characterization, and thermal decomposition of Bi2(Hsal)6 M(Acac)3 (M = Al, Co, V, Fe, Cr),” Inorg. Chem.43, 3299–3305 (2004).
[CrossRef] [PubMed]

1993 (1)

E. Delevaque, T. George, M. Monerie, P. Lamouler, and J.-F. Bayon, “Modeling of pair-induced quenching in Erbium-doped silicate fibers,” IEEE Photon. Technol. Lett.5, 73–75 (1993).
[CrossRef]

1951 (1)

E. P. Barret, L. Joyner, and P. P. Halenda, “The determination of pore volume and area distributions in porous substances. I. Computations from nitrogen isotherms,” J. Am. Chem. Soc.73, 373–380 (1951).
[CrossRef]

1938 (1)

S. Brunauer, P. H. Emmett, and E. Teller, “Adsorption of Gases in Multimolecular Layers,” J. Am. Chem. Soc.60, 309–319 (1938).
[CrossRef]

Arai, Y.

S. Khonthon, S. Morimoto, Y. Arai, and Y. Ohishi, “Luminescence characteristics of Te- and Bi-doped glasses and glass ceramics,” J. Ceram. Soc. Jpn.115, 259–263 (2007).
[CrossRef]

Arion, V.

Barmenkov, Y. O.

Barret, E. P.

E. P. Barret, L. Joyner, and P. P. Halenda, “The determination of pore volume and area distributions in porous substances. I. Computations from nitrogen isotherms,” J. Am. Chem. Soc.73, 373–380 (1951).
[CrossRef]

Bayon, J.-F.

E. Delevaque, T. George, M. Monerie, P. Lamouler, and J.-F. Bayon, “Modeling of pair-induced quenching in Erbium-doped silicate fibers,” IEEE Photon. Technol. Lett.5, 73–75 (1993).
[CrossRef]

Berrier, E.

H. El Hamzaoui, L. Courtheoux, V. Nguyen, E. Berrier, A. Favre, L. Bigot, M. Bouazaoui, and B. Capoen, “From porous silica xerogels to bulk optical glasses: The control of densification,” Mater. Chem. Phys.121, 83–88 (2010).
[CrossRef]

Bigot, L.

I. Razdobreev and L. Bigot, “On the multiplicity of Bismuth active centres in germano-aluminosilicate preform,” Opt. Mater.33, 973–977 (2011).
[CrossRef]

H. El Hamzaoui, L. Bigot, G. Bouwmans, I. Razdobreev, M. Bouazaoui, and B. Capoen, “From molecular precursors in solution to microstructured optical fiber: a Sol-gel polymeric route,” Opt. Mater. Express1, 234–242 (2011).
[CrossRef]

I. Razdobreev, V. Yu. Ivanov, L. Bigot, M. Godlewski, and E. F. Kustov, “Optically detected magnetic resonance in bismuth-doped silica glass,” Opt. Lett.34, 2691–2693 (2010).
[CrossRef]

I. Razdobreev, H. El Hamzaoui, L. Bigot, V. Arion, G. Bouwmans, A. Le Rouge, and M. Bouazaoui, “Optical properties of Bismuth-doped silica core photonic crystal fiber,” Opt. Express18, 19479–19484 (2010).
[CrossRef] [PubMed]

H. El Hamzaoui, L. Courtheoux, V. Nguyen, E. Berrier, A. Favre, L. Bigot, M. Bouazaoui, and B. Capoen, “From porous silica xerogels to bulk optical glasses: The control of densification,” Mater. Chem. Phys.121, 83–88 (2010).
[CrossRef]

I. Razdobreev, L. Bigot, V. Pureur, A. Favre, G. Bowmans, and M. Douay, “Efficient all-fiber bismuth-doped laser,” Appl. Phys. Lett.90, 031103 (2007).
[CrossRef]

Bouazaoui, M.

Bouwmans, G.

Bowmans, G.

I. Razdobreev, L. Bigot, V. Pureur, A. Favre, G. Bowmans, and M. Douay, “Efficient all-fiber bismuth-doped laser,” Appl. Phys. Lett.90, 031103 (2007).
[CrossRef]

Brunauer, S.

S. Brunauer, P. H. Emmett, and E. Teller, “Adsorption of Gases in Multimolecular Layers,” J. Am. Chem. Soc.60, 309–319 (1938).
[CrossRef]

Bufetov, I.

I. Bufetov and E. Dianov, “Bi-doped fiber lasers,” Laser Phys. Lett.6, 487–504 (2009).
[CrossRef]

Bufetov, I. A.

Bufetova, G. A.

I. A. Bufetov, S. L. Semenov, V. V. Vel’miskin, S. V. Firstov, G. A. Bufetova, and E. M. Dianov, “Optical properties of active bismuth centres in silica fibres containing no other dopants,” Quantum Electron.40, 639–641 (2010).
[CrossRef]

Bulatov, L. I.

L. I. Bulatov, V. M. Mashinsky, V. V. Dvoyrin, E. F. Kustov, and E. M. Dianov, “Luminescent properties of bismuth centres in aluminosilicate optical fibres,” Quantum Electron.40, 153–159 (2010).
[CrossRef]

Capoen, B.

Chazallon, B.

C. Focsa, C. Mihesan, M. Ziskind, B. Chazallon, E. Therssen, P. Desgroux, and J.- L. Destombe, “Wavelength-selective vibrationally excited photodesorption with tunable IR sources,” J. Phys.: Condens. Matter18, S1357–S1387 (2006).
[CrossRef]

Courtheoux, L.

H. El Hamzaoui, L. Courtheoux, V. Nguyen, E. Berrier, A. Favre, L. Bigot, M. Bouazaoui, and B. Capoen, “From porous silica xerogels to bulk optical glasses: The control of densification,” Mater. Chem. Phys.121, 83–88 (2010).
[CrossRef]

Deki, S.

Delevaque, E.

E. Delevaque, T. George, M. Monerie, P. Lamouler, and J.-F. Bayon, “Modeling of pair-induced quenching in Erbium-doped silicate fibers,” IEEE Photon. Technol. Lett.5, 73–75 (1993).
[CrossRef]

Denker, B.

B. Denker, B. Galagan, V. Osiko, I. Shulman, S. Sverchkov, and E. Dianov, “Factors affecting the formation of near infrared-emitting optical centers in Bi-doped glasses,” Appl. Phys. B98, 455–458 (2010).
[CrossRef]

B. Denker, B. Galagan, V. Osiko, I. Shulman, S. Sverchkov, and E. Dianov, “Absorption and emission properties of Bi-doped Mg-Al-Si oxide glass system,” Appl. Phys. B95, 801–805 (2009).
[CrossRef]

Desgroux, P.

C. Focsa, C. Mihesan, M. Ziskind, B. Chazallon, E. Therssen, P. Desgroux, and J.- L. Destombe, “Wavelength-selective vibrationally excited photodesorption with tunable IR sources,” J. Phys.: Condens. Matter18, S1357–S1387 (2006).
[CrossRef]

Destombe, J.- L.

C. Focsa, C. Mihesan, M. Ziskind, B. Chazallon, E. Therssen, P. Desgroux, and J.- L. Destombe, “Wavelength-selective vibrationally excited photodesorption with tunable IR sources,” J. Phys.: Condens. Matter18, S1357–S1387 (2006).
[CrossRef]

Dianov, E.

B. Denker, B. Galagan, V. Osiko, I. Shulman, S. Sverchkov, and E. Dianov, “Factors affecting the formation of near infrared-emitting optical centers in Bi-doped glasses,” Appl. Phys. B98, 455–458 (2010).
[CrossRef]

I. Bufetov and E. Dianov, “Bi-doped fiber lasers,” Laser Phys. Lett.6, 487–504 (2009).
[CrossRef]

B. Denker, B. Galagan, V. Osiko, I. Shulman, S. Sverchkov, and E. Dianov, “Absorption and emission properties of Bi-doped Mg-Al-Si oxide glass system,” Appl. Phys. B95, 801–805 (2009).
[CrossRef]

Dianov, E. M.

S. V. Firstov, V. F. Khopin, I. A. Bufetov, E. G. Firstova, A. N. Guryanov, and E. M. Dianov, “Combined excitation-emission spectroscopy of bismuth active centers in optical fibers,” Opt. Express19, 19551–19561 (2011).
[CrossRef] [PubMed]

I. A. Bufetov, M. A. Melkumov, S. V. Firstov, A. V. Shubin, S. L. Semenov, V. V. Vel’miskin, A. E. Levchenko, E. G. Firstova, and E. M. Dianov, “Optical gain and laser generation in bismuth-doped silica fibers free of other dopants,” Opt. Lett.36, 166–168 (2011).
[CrossRef] [PubMed]

L. I. Bulatov, V. M. Mashinsky, V. V. Dvoyrin, E. F. Kustov, and E. M. Dianov, “Luminescent properties of bismuth centres in aluminosilicate optical fibres,” Quantum Electron.40, 153–159 (2010).
[CrossRef]

I. A. Bufetov, S. L. Semenov, V. V. Vel’miskin, S. V. Firstov, G. A. Bufetova, and E. M. Dianov, “Optical properties of active bismuth centres in silica fibres containing no other dopants,” Quantum Electron.40, 639–641 (2010).
[CrossRef]

I. A. Bufetov, S. V. Firstov, V. F. Khopin, O. I. Medvedkov, A. N. Guryanov, and E. M. Dianov, “Bi-doped fiber lasers and amplifiers for a spectral region of 1300–1470 nm,” Opt. Lett.33, 2227–2229 (2008).
[CrossRef] [PubMed]

V. O. Sokolov, V. G. Plotnichenko, and E. M. Dianov, “Origin of broadband near-infrared luminescence in bismuth-doped glasses,” Opt. Lett.33, 1488–1490 (2008).
[CrossRef] [PubMed]

V. V. Dvoyrin, V. M. Mashinsky, and E. M. Dianov, “Efficient Bismuth-Doped Fiber Lasers,” IEEE J. Quantum Electron.44, 834–840 (2008).
[CrossRef]

A. V. Kir’yanov, Y. O. Barmenkov, I. L. Martinez, A. S. Kurkov, and E. M. Dianov, “Cooperative luminescence and absorption in Ytterbium-doped silica fiber and the fiber nonlinear transmission coefficient at λ = 980 nm with a regard to the Ytterbium ion-pairs effect,” Opt. Express14, 3981–3992 (2006).
[CrossRef]

E. M. Dianov, V. V. Dvoyrin, V. M. Mashinsky, A. A. Umnikov, M. V. Yashkov, and A. N. Gur’yanov, “CW bismuth fibre laser,” Quantum Electron.35, 1083–1084 (2005).
[CrossRef]

Douay, M.

I. Razdobreev, L. Bigot, V. Pureur, A. Favre, G. Bowmans, and M. Douay, “Efficient all-fiber bismuth-doped laser,” Appl. Phys. Lett.90, 031103 (2007).
[CrossRef]

Dvoyrin, V. V.

L. I. Bulatov, V. M. Mashinsky, V. V. Dvoyrin, E. F. Kustov, and E. M. Dianov, “Luminescent properties of bismuth centres in aluminosilicate optical fibres,” Quantum Electron.40, 153–159 (2010).
[CrossRef]

V. V. Dvoyrin, V. M. Mashinsky, and E. M. Dianov, “Efficient Bismuth-Doped Fiber Lasers,” IEEE J. Quantum Electron.44, 834–840 (2008).
[CrossRef]

E. M. Dianov, V. V. Dvoyrin, V. M. Mashinsky, A. A. Umnikov, M. V. Yashkov, and A. N. Gur’yanov, “CW bismuth fibre laser,” Quantum Electron.35, 1083–1084 (2005).
[CrossRef]

El Hamzaoui, H.

Emmett, P. H.

S. Brunauer, P. H. Emmett, and E. Teller, “Adsorption of Gases in Multimolecular Layers,” J. Am. Chem. Soc.60, 309–319 (1938).
[CrossRef]

Favre, A.

H. El Hamzaoui, L. Courtheoux, V. Nguyen, E. Berrier, A. Favre, L. Bigot, M. Bouazaoui, and B. Capoen, “From porous silica xerogels to bulk optical glasses: The control of densification,” Mater. Chem. Phys.121, 83–88 (2010).
[CrossRef]

I. Razdobreev, L. Bigot, V. Pureur, A. Favre, G. Bowmans, and M. Douay, “Efficient all-fiber bismuth-doped laser,” Appl. Phys. Lett.90, 031103 (2007).
[CrossRef]

Firstov, S. V.

Firstova, E. G.

Focsa, C.

C. Focsa, C. Mihesan, M. Ziskind, B. Chazallon, E. Therssen, P. Desgroux, and J.- L. Destombe, “Wavelength-selective vibrationally excited photodesorption with tunable IR sources,” J. Phys.: Condens. Matter18, S1357–S1387 (2006).
[CrossRef]

Fujii, M.

Galagan, B.

B. Denker, B. Galagan, V. Osiko, I. Shulman, S. Sverchkov, and E. Dianov, “Factors affecting the formation of near infrared-emitting optical centers in Bi-doped glasses,” Appl. Phys. B98, 455–458 (2010).
[CrossRef]

B. Denker, B. Galagan, V. Osiko, I. Shulman, S. Sverchkov, and E. Dianov, “Absorption and emission properties of Bi-doped Mg-Al-Si oxide glass system,” Appl. Phys. B95, 801–805 (2009).
[CrossRef]

George, T.

E. Delevaque, T. George, M. Monerie, P. Lamouler, and J.-F. Bayon, “Modeling of pair-induced quenching in Erbium-doped silicate fibers,” IEEE Photon. Technol. Lett.5, 73–75 (1993).
[CrossRef]

Godlewski, M.

Gur’yanov, A. N.

E. M. Dianov, V. V. Dvoyrin, V. M. Mashinsky, A. A. Umnikov, M. V. Yashkov, and A. N. Gur’yanov, “CW bismuth fibre laser,” Quantum Electron.35, 1083–1084 (2005).
[CrossRef]

Guryanov, A. N.

Halenda, P. P.

E. P. Barret, L. Joyner, and P. P. Halenda, “The determination of pore volume and area distributions in porous substances. I. Computations from nitrogen isotherms,” J. Am. Chem. Soc.73, 373–380 (1951).
[CrossRef]

Hao, J.

S. Zhou, N. Jiang, B. Zhu, H. Yang, S. Ye, G. Laksshminaranayana, J. Hao, and J. Qiu, “Multifunctional Bismuth-Doped Nanoporous Silica Glass: From Blue-Green, Orange, Red, and White Light Sources to Ultra-Broadband Infrared Amplifiers,” Adv. Funct. Mater.18, 1407–1413 (2008)
[CrossRef]

Hayashi, S.

Hosokawa, A.

Ivanov, V. Yu.

Jiang, N.

S. Zhou, N. Jiang, B. Zhu, H. Yang, S. Ye, G. Laksshminaranayana, J. Hao, and J. Qiu, “Multifunctional Bismuth-Doped Nanoporous Silica Glass: From Blue-Green, Orange, Red, and White Light Sources to Ultra-Broadband Infrared Amplifiers,” Adv. Funct. Mater.18, 1407–1413 (2008)
[CrossRef]

Joyner, L.

E. P. Barret, L. Joyner, and P. P. Halenda, “The determination of pore volume and area distributions in porous substances. I. Computations from nitrogen isotherms,” J. Am. Chem. Soc.73, 373–380 (1951).
[CrossRef]

Kalita, M. P.

Khonthon, S.

S. Khonthon, S. Morimoto, Y. Arai, and Y. Ohishi, “Luminescence characteristics of Te- and Bi-doped glasses and glass ceramics,” J. Ceram. Soc. Jpn.115, 259–263 (2007).
[CrossRef]

Khopin, V. F.

Kir’yanov, A. V.

Kurkov, A. S.

Kustov, E. F.

Laksshminaranayana, G.

S. Zhou, N. Jiang, B. Zhu, H. Yang, S. Ye, G. Laksshminaranayana, J. Hao, and J. Qiu, “Multifunctional Bismuth-Doped Nanoporous Silica Glass: From Blue-Green, Orange, Red, and White Light Sources to Ultra-Broadband Infrared Amplifiers,” Adv. Funct. Mater.18, 1407–1413 (2008)
[CrossRef]

Lamouler, P.

E. Delevaque, T. George, M. Monerie, P. Lamouler, and J.-F. Bayon, “Modeling of pair-induced quenching in Erbium-doped silicate fibers,” IEEE Photon. Technol. Lett.5, 73–75 (1993).
[CrossRef]

Le Rouge, A.

Levchenko, A. E.

Marakulin, A. V.

A. S. Kurkov, E. M. Sholokhov, A. V. Marakulin, and L. A. Minashina, “Effect of active-ion concentration on holmium fibre laser efficiency,” Quantum Electron.40, 386–388 (2010).
[CrossRef]

Martinez, I. L.

Mashinsky, V. M.

L. I. Bulatov, V. M. Mashinsky, V. V. Dvoyrin, E. F. Kustov, and E. M. Dianov, “Luminescent properties of bismuth centres in aluminosilicate optical fibres,” Quantum Electron.40, 153–159 (2010).
[CrossRef]

V. V. Dvoyrin, V. M. Mashinsky, and E. M. Dianov, “Efficient Bismuth-Doped Fiber Lasers,” IEEE J. Quantum Electron.44, 834–840 (2008).
[CrossRef]

E. M. Dianov, V. V. Dvoyrin, V. M. Mashinsky, A. A. Umnikov, M. V. Yashkov, and A. N. Gur’yanov, “CW bismuth fibre laser,” Quantum Electron.35, 1083–1084 (2005).
[CrossRef]

Medvedkov, O. I.

Melkumov, M. A.

Mihesan, C.

C. Focsa, C. Mihesan, M. Ziskind, B. Chazallon, E. Therssen, P. Desgroux, and J.- L. Destombe, “Wavelength-selective vibrationally excited photodesorption with tunable IR sources,” J. Phys.: Condens. Matter18, S1357–S1387 (2006).
[CrossRef]

Minashina, L. A.

A. S. Kurkov, E. M. Sholokhov, A. V. Marakulin, and L. A. Minashina, “Effect of active-ion concentration on holmium fibre laser efficiency,” Quantum Electron.40, 386–388 (2010).
[CrossRef]

Miwa, Y.

Mizuhata, M.

Monerie, M.

E. Delevaque, T. George, M. Monerie, P. Lamouler, and J.-F. Bayon, “Modeling of pair-induced quenching in Erbium-doped silicate fibers,” IEEE Photon. Technol. Lett.5, 73–75 (1993).
[CrossRef]

Morimoto, S.

S. Khonthon, S. Morimoto, Y. Arai, and Y. Ohishi, “Luminescence characteristics of Te- and Bi-doped glasses and glass ceramics,” J. Ceram. Soc. Jpn.115, 259–263 (2007).
[CrossRef]

Nguyen, V.

H. El Hamzaoui, L. Courtheoux, V. Nguyen, E. Berrier, A. Favre, L. Bigot, M. Bouazaoui, and B. Capoen, “From porous silica xerogels to bulk optical glasses: The control of densification,” Mater. Chem. Phys.121, 83–88 (2010).
[CrossRef]

Nilsson, J.

Ohishi, Y.

S. Khonthon, S. Morimoto, Y. Arai, and Y. Ohishi, “Luminescence characteristics of Te- and Bi-doped glasses and glass ceramics,” J. Ceram. Soc. Jpn.115, 259–263 (2007).
[CrossRef]

Osiko, V.

B. Denker, B. Galagan, V. Osiko, I. Shulman, S. Sverchkov, and E. Dianov, “Factors affecting the formation of near infrared-emitting optical centers in Bi-doped glasses,” Appl. Phys. B98, 455–458 (2010).
[CrossRef]

B. Denker, B. Galagan, V. Osiko, I. Shulman, S. Sverchkov, and E. Dianov, “Absorption and emission properties of Bi-doped Mg-Al-Si oxide glass system,” Appl. Phys. B95, 801–805 (2009).
[CrossRef]

Ould-Ely, T.

J. H. Thurston, D. Trahan, T. Ould-Ely, and K. H. Whitmire, “Toward a general strategy for the synthesis of heterobimetallic coordination complexes for use as precursors to metal oxide materials: Synthesis, characterization, and thermal decomposition of Bi2(Hsal)6 M(Acac)3 (M = Al, Co, V, Fe, Cr),” Inorg. Chem.43, 3299–3305 (2004).
[CrossRef] [PubMed]

Peng, M.

M. Peng, C. Zollfrank, and L. Wondraczek, “Origin of broad NIR photoluminescence in bismuthate glass and Bi-doped glasses at room temperature,” J. Phys. Condens. Matter21, 285106 (2009).
[CrossRef] [PubMed]

Plotnichenko, V. G.

Pureur, V.

I. Razdobreev, L. Bigot, V. Pureur, A. Favre, G. Bowmans, and M. Douay, “Efficient all-fiber bismuth-doped laser,” Appl. Phys. Lett.90, 031103 (2007).
[CrossRef]

Qiu, J.

S. Zhou, N. Jiang, B. Zhu, H. Yang, S. Ye, G. Laksshminaranayana, J. Hao, and J. Qiu, “Multifunctional Bismuth-Doped Nanoporous Silica Glass: From Blue-Green, Orange, Red, and White Light Sources to Ultra-Broadband Infrared Amplifiers,” Adv. Funct. Mater.18, 1407–1413 (2008)
[CrossRef]

Razdobreev, I.

Sahu, J.

Semenov, S. L.

I. A. Bufetov, M. A. Melkumov, S. V. Firstov, A. V. Shubin, S. L. Semenov, V. V. Vel’miskin, A. E. Levchenko, E. G. Firstova, and E. M. Dianov, “Optical gain and laser generation in bismuth-doped silica fibers free of other dopants,” Opt. Lett.36, 166–168 (2011).
[CrossRef] [PubMed]

I. A. Bufetov, S. L. Semenov, V. V. Vel’miskin, S. V. Firstov, G. A. Bufetova, and E. M. Dianov, “Optical properties of active bismuth centres in silica fibres containing no other dopants,” Quantum Electron.40, 639–641 (2010).
[CrossRef]

Shimaoka, F.

Sholokhov, E. M.

A. S. Kurkov, E. M. Sholokhov, A. V. Marakulin, and L. A. Minashina, “Effect of active-ion concentration on holmium fibre laser efficiency,” Quantum Electron.40, 386–388 (2010).
[CrossRef]

Shubin, A. V.

Shulman, I.

B. Denker, B. Galagan, V. Osiko, I. Shulman, S. Sverchkov, and E. Dianov, “Factors affecting the formation of near infrared-emitting optical centers in Bi-doped glasses,” Appl. Phys. B98, 455–458 (2010).
[CrossRef]

B. Denker, B. Galagan, V. Osiko, I. Shulman, S. Sverchkov, and E. Dianov, “Absorption and emission properties of Bi-doped Mg-Al-Si oxide glass system,” Appl. Phys. B95, 801–805 (2009).
[CrossRef]

Sokolov, V. O.

Sun, H.-T.

Sverchkov, S.

B. Denker, B. Galagan, V. Osiko, I. Shulman, S. Sverchkov, and E. Dianov, “Factors affecting the formation of near infrared-emitting optical centers in Bi-doped glasses,” Appl. Phys. B98, 455–458 (2010).
[CrossRef]

B. Denker, B. Galagan, V. Osiko, I. Shulman, S. Sverchkov, and E. Dianov, “Absorption and emission properties of Bi-doped Mg-Al-Si oxide glass system,” Appl. Phys. B95, 801–805 (2009).
[CrossRef]

Teller, E.

S. Brunauer, P. H. Emmett, and E. Teller, “Adsorption of Gases in Multimolecular Layers,” J. Am. Chem. Soc.60, 309–319 (1938).
[CrossRef]

Therssen, E.

C. Focsa, C. Mihesan, M. Ziskind, B. Chazallon, E. Therssen, P. Desgroux, and J.- L. Destombe, “Wavelength-selective vibrationally excited photodesorption with tunable IR sources,” J. Phys.: Condens. Matter18, S1357–S1387 (2006).
[CrossRef]

Thurston, J. H.

J. H. Thurston, D. Trahan, T. Ould-Ely, and K. H. Whitmire, “Toward a general strategy for the synthesis of heterobimetallic coordination complexes for use as precursors to metal oxide materials: Synthesis, characterization, and thermal decomposition of Bi2(Hsal)6 M(Acac)3 (M = Al, Co, V, Fe, Cr),” Inorg. Chem.43, 3299–3305 (2004).
[CrossRef] [PubMed]

Trahan, D.

J. H. Thurston, D. Trahan, T. Ould-Ely, and K. H. Whitmire, “Toward a general strategy for the synthesis of heterobimetallic coordination complexes for use as precursors to metal oxide materials: Synthesis, characterization, and thermal decomposition of Bi2(Hsal)6 M(Acac)3 (M = Al, Co, V, Fe, Cr),” Inorg. Chem.43, 3299–3305 (2004).
[CrossRef] [PubMed]

Umnikov, A. A.

E. M. Dianov, V. V. Dvoyrin, V. M. Mashinsky, A. A. Umnikov, M. V. Yashkov, and A. N. Gur’yanov, “CW bismuth fibre laser,” Quantum Electron.35, 1083–1084 (2005).
[CrossRef]

Vel’miskin, V. V.

I. A. Bufetov, M. A. Melkumov, S. V. Firstov, A. V. Shubin, S. L. Semenov, V. V. Vel’miskin, A. E. Levchenko, E. G. Firstova, and E. M. Dianov, “Optical gain and laser generation in bismuth-doped silica fibers free of other dopants,” Opt. Lett.36, 166–168 (2011).
[CrossRef] [PubMed]

I. A. Bufetov, S. L. Semenov, V. V. Vel’miskin, S. V. Firstov, G. A. Bufetova, and E. M. Dianov, “Optical properties of active bismuth centres in silica fibres containing no other dopants,” Quantum Electron.40, 639–641 (2010).
[CrossRef]

Whitmire, K. H.

J. H. Thurston, D. Trahan, T. Ould-Ely, and K. H. Whitmire, “Toward a general strategy for the synthesis of heterobimetallic coordination complexes for use as precursors to metal oxide materials: Synthesis, characterization, and thermal decomposition of Bi2(Hsal)6 M(Acac)3 (M = Al, Co, V, Fe, Cr),” Inorg. Chem.43, 3299–3305 (2004).
[CrossRef] [PubMed]

Wondraczek, L.

M. Peng, C. Zollfrank, and L. Wondraczek, “Origin of broad NIR photoluminescence in bismuthate glass and Bi-doped glasses at room temperature,” J. Phys. Condens. Matter21, 285106 (2009).
[CrossRef] [PubMed]

Yang, H.

S. Zhou, N. Jiang, B. Zhu, H. Yang, S. Ye, G. Laksshminaranayana, J. Hao, and J. Qiu, “Multifunctional Bismuth-Doped Nanoporous Silica Glass: From Blue-Green, Orange, Red, and White Light Sources to Ultra-Broadband Infrared Amplifiers,” Adv. Funct. Mater.18, 1407–1413 (2008)
[CrossRef]

Yashkov, M. V.

E. M. Dianov, V. V. Dvoyrin, V. M. Mashinsky, A. A. Umnikov, M. V. Yashkov, and A. N. Gur’yanov, “CW bismuth fibre laser,” Quantum Electron.35, 1083–1084 (2005).
[CrossRef]

Ye, S.

S. Zhou, N. Jiang, B. Zhu, H. Yang, S. Ye, G. Laksshminaranayana, J. Hao, and J. Qiu, “Multifunctional Bismuth-Doped Nanoporous Silica Glass: From Blue-Green, Orange, Red, and White Light Sources to Ultra-Broadband Infrared Amplifiers,” Adv. Funct. Mater.18, 1407–1413 (2008)
[CrossRef]

Yoo, S.

Zare, R. N.

R. Zenobi and R. N. Zare, “Two-Step Laser Mass Spectrometry,” in Advances in Multi-Photon Processes and Spectroscopy, Vol. 7, S. H. Lin, Ed. (World Scientific, 1991), pp. 1–168.
[CrossRef]

Zenobi, R.

R. Zenobi and R. N. Zare, “Two-Step Laser Mass Spectrometry,” in Advances in Multi-Photon Processes and Spectroscopy, Vol. 7, S. H. Lin, Ed. (World Scientific, 1991), pp. 1–168.
[CrossRef]

Zhou, S.

S. Zhou, N. Jiang, B. Zhu, H. Yang, S. Ye, G. Laksshminaranayana, J. Hao, and J. Qiu, “Multifunctional Bismuth-Doped Nanoporous Silica Glass: From Blue-Green, Orange, Red, and White Light Sources to Ultra-Broadband Infrared Amplifiers,” Adv. Funct. Mater.18, 1407–1413 (2008)
[CrossRef]

Zhu, B.

S. Zhou, N. Jiang, B. Zhu, H. Yang, S. Ye, G. Laksshminaranayana, J. Hao, and J. Qiu, “Multifunctional Bismuth-Doped Nanoporous Silica Glass: From Blue-Green, Orange, Red, and White Light Sources to Ultra-Broadband Infrared Amplifiers,” Adv. Funct. Mater.18, 1407–1413 (2008)
[CrossRef]

Ziskind, M.

C. Focsa, C. Mihesan, M. Ziskind, B. Chazallon, E. Therssen, P. Desgroux, and J.- L. Destombe, “Wavelength-selective vibrationally excited photodesorption with tunable IR sources,” J. Phys.: Condens. Matter18, S1357–S1387 (2006).
[CrossRef]

Zollfrank, C.

M. Peng, C. Zollfrank, and L. Wondraczek, “Origin of broad NIR photoluminescence in bismuthate glass and Bi-doped glasses at room temperature,” J. Phys. Condens. Matter21, 285106 (2009).
[CrossRef] [PubMed]

Adv. Funct. Mater. (1)

S. Zhou, N. Jiang, B. Zhu, H. Yang, S. Ye, G. Laksshminaranayana, J. Hao, and J. Qiu, “Multifunctional Bismuth-Doped Nanoporous Silica Glass: From Blue-Green, Orange, Red, and White Light Sources to Ultra-Broadband Infrared Amplifiers,” Adv. Funct. Mater.18, 1407–1413 (2008)
[CrossRef]

Appl. Phys. B (2)

B. Denker, B. Galagan, V. Osiko, I. Shulman, S. Sverchkov, and E. Dianov, “Absorption and emission properties of Bi-doped Mg-Al-Si oxide glass system,” Appl. Phys. B95, 801–805 (2009).
[CrossRef]

B. Denker, B. Galagan, V. Osiko, I. Shulman, S. Sverchkov, and E. Dianov, “Factors affecting the formation of near infrared-emitting optical centers in Bi-doped glasses,” Appl. Phys. B98, 455–458 (2010).
[CrossRef]

Appl. Phys. Lett. (1)

I. Razdobreev, L. Bigot, V. Pureur, A. Favre, G. Bowmans, and M. Douay, “Efficient all-fiber bismuth-doped laser,” Appl. Phys. Lett.90, 031103 (2007).
[CrossRef]

IEEE J. Quantum Electron. (1)

V. V. Dvoyrin, V. M. Mashinsky, and E. M. Dianov, “Efficient Bismuth-Doped Fiber Lasers,” IEEE J. Quantum Electron.44, 834–840 (2008).
[CrossRef]

IEEE Photon. Technol. Lett. (1)

E. Delevaque, T. George, M. Monerie, P. Lamouler, and J.-F. Bayon, “Modeling of pair-induced quenching in Erbium-doped silicate fibers,” IEEE Photon. Technol. Lett.5, 73–75 (1993).
[CrossRef]

Inorg. Chem. (1)

J. H. Thurston, D. Trahan, T. Ould-Ely, and K. H. Whitmire, “Toward a general strategy for the synthesis of heterobimetallic coordination complexes for use as precursors to metal oxide materials: Synthesis, characterization, and thermal decomposition of Bi2(Hsal)6 M(Acac)3 (M = Al, Co, V, Fe, Cr),” Inorg. Chem.43, 3299–3305 (2004).
[CrossRef] [PubMed]

J. Am. Chem. Soc. (2)

S. Brunauer, P. H. Emmett, and E. Teller, “Adsorption of Gases in Multimolecular Layers,” J. Am. Chem. Soc.60, 309–319 (1938).
[CrossRef]

E. P. Barret, L. Joyner, and P. P. Halenda, “The determination of pore volume and area distributions in porous substances. I. Computations from nitrogen isotherms,” J. Am. Chem. Soc.73, 373–380 (1951).
[CrossRef]

J. Ceram. Soc. Jpn. (1)

S. Khonthon, S. Morimoto, Y. Arai, and Y. Ohishi, “Luminescence characteristics of Te- and Bi-doped glasses and glass ceramics,” J. Ceram. Soc. Jpn.115, 259–263 (2007).
[CrossRef]

J. Phys. Condens. Matter (1)

M. Peng, C. Zollfrank, and L. Wondraczek, “Origin of broad NIR photoluminescence in bismuthate glass and Bi-doped glasses at room temperature,” J. Phys. Condens. Matter21, 285106 (2009).
[CrossRef] [PubMed]

J. Phys.: Condens. Matter (1)

C. Focsa, C. Mihesan, M. Ziskind, B. Chazallon, E. Therssen, P. Desgroux, and J.- L. Destombe, “Wavelength-selective vibrationally excited photodesorption with tunable IR sources,” J. Phys.: Condens. Matter18, S1357–S1387 (2006).
[CrossRef]

Laser Phys. Lett. (1)

I. Bufetov and E. Dianov, “Bi-doped fiber lasers,” Laser Phys. Lett.6, 487–504 (2009).
[CrossRef]

Mater. Chem. Phys. (1)

H. El Hamzaoui, L. Courtheoux, V. Nguyen, E. Berrier, A. Favre, L. Bigot, M. Bouazaoui, and B. Capoen, “From porous silica xerogels to bulk optical glasses: The control of densification,” Mater. Chem. Phys.121, 83–88 (2010).
[CrossRef]

Opt. Express (4)

Opt. Lett. (7)

I. A. Bufetov, M. A. Melkumov, S. V. Firstov, A. V. Shubin, S. L. Semenov, V. V. Vel’miskin, A. E. Levchenko, E. G. Firstova, and E. M. Dianov, “Optical gain and laser generation in bismuth-doped silica fibers free of other dopants,” Opt. Lett.36, 166–168 (2011).
[CrossRef] [PubMed]

S. Yoo, M. P. Kalita, J. Nilsson, and J. Sahu, “Excited state absorption measurement in the 900–1250 nm wavelength range for bismuth-doped silicate fibers,” Opt. Lett.34, 530–532 (2009).
[CrossRef] [PubMed]

H.-T. Sun, Y. Miwa, F. Shimaoka, M. Fujii, A. Hosokawa, M. Mizuhata, S. Hayashi, and S. Deki, “Superbroad-band near-IR nano-optical source based on bismuth-doped high-silica nanocrystalline zeolites,” Opt. Lett.34, 1219–1221 (2009).
[CrossRef] [PubMed]

I. Razdobreev, V. Yu. Ivanov, L. Bigot, M. Godlewski, and E. F. Kustov, “Optically detected magnetic resonance in bismuth-doped silica glass,” Opt. Lett.34, 2691–2693 (2010).
[CrossRef]

I. Razdobreev, H. El Hamzaoui, V. Yu. Ivanov, E. F. Kustov, B. Capoen, and M. Bouazaoui, “Optical spectroscopy of Bismuth-doped pure silica fiber preform,” Opt. Lett.35, 1341–1343 (2010).
[CrossRef] [PubMed]

V. O. Sokolov, V. G. Plotnichenko, and E. M. Dianov, “Origin of broadband near-infrared luminescence in bismuth-doped glasses,” Opt. Lett.33, 1488–1490 (2008).
[CrossRef] [PubMed]

I. A. Bufetov, S. V. Firstov, V. F. Khopin, O. I. Medvedkov, A. N. Guryanov, and E. M. Dianov, “Bi-doped fiber lasers and amplifiers for a spectral region of 1300–1470 nm,” Opt. Lett.33, 2227–2229 (2008).
[CrossRef] [PubMed]

Opt. Mater. (1)

I. Razdobreev and L. Bigot, “On the multiplicity of Bismuth active centres in germano-aluminosilicate preform,” Opt. Mater.33, 973–977 (2011).
[CrossRef]

Opt. Mater. Express (1)

Quantum Electron. (4)

I. A. Bufetov, S. L. Semenov, V. V. Vel’miskin, S. V. Firstov, G. A. Bufetova, and E. M. Dianov, “Optical properties of active bismuth centres in silica fibres containing no other dopants,” Quantum Electron.40, 639–641 (2010).
[CrossRef]

E. M. Dianov, V. V. Dvoyrin, V. M. Mashinsky, A. A. Umnikov, M. V. Yashkov, and A. N. Gur’yanov, “CW bismuth fibre laser,” Quantum Electron.35, 1083–1084 (2005).
[CrossRef]

A. S. Kurkov, E. M. Sholokhov, A. V. Marakulin, and L. A. Minashina, “Effect of active-ion concentration on holmium fibre laser efficiency,” Quantum Electron.40, 386–388 (2010).
[CrossRef]

L. I. Bulatov, V. M. Mashinsky, V. V. Dvoyrin, E. F. Kustov, and E. M. Dianov, “Luminescent properties of bismuth centres in aluminosilicate optical fibres,” Quantum Electron.40, 153–159 (2010).
[CrossRef]

Other (1)

R. Zenobi and R. N. Zare, “Two-Step Laser Mass Spectrometry,” in Advances in Multi-Photon Processes and Spectroscopy, Vol. 7, S. H. Lin, Ed. (World Scientific, 1991), pp. 1–168.
[CrossRef]

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Figures (6)

Fig. 1
Fig. 1

X-ray diffraction structure of AlBi2 complex.

Fig. 2
Fig. 2

Radial distribution of Aluminium and Bismuth content in the sintered sample measured with EPMA and L2MS techniques.

Fig. 3
Fig. 3

Normalized CW NIR PL spectra of the NS sample. All spectra were normalized to the maximum intensity. Excitation powers: 40 mW (532 nm); 100 mW (750 nm), 400 mW (800 nm) and 30 mW (1064 nm).

Fig. 4
Fig. 4

PL decay kinetics in the NS sample with an excitation wavelength of 532 nm. In color - experiment; black solid lines: a) single-exponential fit; b) bi-exponential fit. Time resolution 4 ns.

Fig. 5
Fig. 5

Normalized CW PL spectra of the NS sample in the range of 900 −1300 nm. a) Comparison of the spectra recorded at Pp =25 mW and Pp = 5W. Inset: Power dependence of peak PL intensity. b) Comparison of the spectra recorded at 300 and 360K and at the same pump power (25 mW).

Fig. 6
Fig. 6

Normalized CW PL spectra of the NS sample in the range of 610 - 900 nm. a) Comparison of the spectra recorded at Pp =25mW and Pp = 5W. Inset: Power dependence of peak PL intensity. b) Comparison of the spectra recorded at 300 and 360K and at the same pump power (25 mW).

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