Abstract

All-fiber systems for third harmonic generation are of great interest because they can be used for the inverse process, namely, the generation of entangled photon triplets. Usually, chromatic dispersion prevents phase matching between the incident and generated radiation when they are both guided in an LP01-like mode. Here, we present a hybrid photonic crystal fiber that has been designed for phase matched third harmonic generation from 1596 to 532 nm in single-lobed modes. The third harmonic radiation is guided by an all-solid bandgap microstructure, while the pump frequency is confined by conventional total internal reflection. The fiber is also suitable for the generation of photon triplet states.

© 2016 Optical Society of America

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References

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A. Borne, T. Katsura, C. Félix, B. Doppagne, P. Segonds, K. Bencheikh, and B. Boulanger, Opt. Commun. 358, 160 (2016).
[Crossref]

S. Tsvetkov, K. Katamadze, N. Borshchevskaia, A. Sysolyatin, M. Fedorov, S. Kulik, M. Salganskii, and A. Belanov, Laser Phys. Lett. 13, 025104 (2016).
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A. Cavanna, F. Just, P. R. Sharapova, M. Taheri, G. Leuchs, and M. V. Chekhova, Opt. Lett. 41, 646 (2016).
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2015 (2)

Z. Montz and A. A. Ishaaya, Opt. Lett. 40, 56 (2015).
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N. A. Borshchevskaya, K. G. Katamadze, S. P. Kulik, and M. V. Fedorov, Laser Phys. Lett. 12, 115404 (2015).
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2014 (1)

2013 (1)

2012 (3)

A. Coillet and P. Grelu, Opt. Commun. 285, 3493 (2012).
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J. Bai, W. Xing, C. Yang, Y. Li, and D. M. Bird, IEEE Photon. Technol. Lett. 24, 389 (2012).
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K. Bencheikh, S. Richard, G. Mélin, G. Krabshuis, F. Gooijer, and A. Levenson, Opt. Lett. 37, 289 (2012).
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2011 (2)

2010 (1)

H. Hübel, D. R. Hamel, A. Fedrizzi, S. Ramelow, K. J. Resch, and T. Jennewein, Nature 466, 09175 (2010).
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2009 (1)

2008 (1)

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V. Grubsky and J. Feinberg, Opt. Commun. 274, 447 (2007).
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2006 (2)

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M. V. Chekhova, O. A. Ivanova, V. Berardi, and A. Garuccio, Phys. Rev. A 72, 023818 (2005).
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A. Borne, T. Katsura, C. Félix, B. Doppagne, P. Segonds, K. Bencheikh, and B. Boulanger, Opt. Commun. 358, 160 (2016).
[Crossref]

Borshchevskaia, N.

S. Tsvetkov, K. Katamadze, N. Borshchevskaia, A. Sysolyatin, M. Fedorov, S. Kulik, M. Salganskii, and A. Belanov, Laser Phys. Lett. 13, 025104 (2016).
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Borshchevskaya, N. A.

N. A. Borshchevskaya, K. G. Katamadze, S. P. Kulik, and M. V. Fedorov, Laser Phys. Lett. 12, 115404 (2015).
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A. Borne, T. Katsura, C. Félix, B. Doppagne, P. Segonds, K. Bencheikh, and B. Boulanger, Opt. Commun. 358, 160 (2016).
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M. V. Chekhova, O. A. Ivanova, V. Berardi, and A. Garuccio, Phys. Rev. A 72, 023818 (2005).
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A. Coillet and P. Grelu, Opt. Commun. 285, 3493 (2012).
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Corona, M.

Couny, F.

Dianov, E. M.

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A. Borne, T. Katsura, C. Félix, B. Doppagne, P. Segonds, K. Bencheikh, and B. Boulanger, Opt. Commun. 358, 160 (2016).
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Douady, J.

K. Bencheikh, F. Gravier, J. Douady, A. Levenson, B. Boulanger, and C. R. Physique, Comptes Rendus Physique 8, 206 (2007).
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J. Douady and B. Boulanger, Opt. Lett. 29, 2794 (2004).
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Douay, M.

Efimov, A.

Elyutin, P. V.

P. V. Elyutin and D. N. Klyshko, Phys. Lett. A 149, 241 (1990).
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S. Tsvetkov, K. Katamadze, N. Borshchevskaia, A. Sysolyatin, M. Fedorov, S. Kulik, M. Salganskii, and A. Belanov, Laser Phys. Lett. 13, 025104 (2016).
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N. A. Borshchevskaya, K. G. Katamadze, S. P. Kulik, and M. V. Fedorov, Laser Phys. Lett. 12, 115404 (2015).
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V. Grubsky and J. Feinberg, Opt. Commun. 274, 447 (2007).
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T. Felbinger, S. Schiller, and J. Mlynek, Phys. Rev. Lett. 80, 492 (1998).
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Félix, C.

A. Borne, T. Katsura, C. Félix, B. Doppagne, P. Segonds, K. Bencheikh, and B. Boulanger, Opt. Commun. 358, 160 (2016).
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Garay-Palmett, K.

Garuccio, A.

M. V. Chekhova, O. A. Ivanova, V. Berardi, and A. Garuccio, Phys. Rev. A 72, 023818 (2005).
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George, A. K.

Golant, K. M.

Gooijer, F.

Gravier, F.

K. Bencheikh, F. Gravier, J. Douady, A. Levenson, B. Boulanger, and C. R. Physique, Comptes Rendus Physique 8, 206 (2007).
[Crossref]

Grekov, M. V.

Grelu, P.

A. Coillet and P. Grelu, Opt. Commun. 285, 3493 (2012).
[Crossref]

Grubsky, V.

V. Grubsky and J. Feinberg, Opt. Commun. 274, 447 (2007).
[Crossref]

V. Grubsky and A. Savchenko, Opt. Express 13, 6798 (2005).
[Crossref]

Hamel, D. R.

H. Hübel, D. R. Hamel, A. Fedrizzi, S. Ramelow, K. J. Resch, and T. Jennewein, Nature 466, 09175 (2010).
[Crossref]

Han, D. S.

K. H. Nam, D. S. Han, and M. S. Kang, in Conference on Lasers and Electro-Optics Pacific Rim (CLEO-PR) (Optical Society of America, 2015), paper 25C3-4.

Hedley, T. D.

Huang, T.

Y. Sun, X. Shao, T. Huang, Z. Wu, T. Lee, S. P. Perry, and G. Brambilla, J. Opt. Soc. Am. B 31, 2142 (2014).
[Crossref]

T. Huang, Z. Wu, X. Shao, J. Zhang, L. Q. Huy, H. Li, and P. Shum, Asia Communications and Photonics Conference (Optical Society of America, 2013), paper ATh3C.5.

Hübel, H.

H. Hübel, D. R. Hamel, A. Fedrizzi, S. Ramelow, K. J. Resch, and T. Jennewein, Nature 466, 09175 (2010).
[Crossref]

Huy, L. Q.

T. Huang, Z. Wu, X. Shao, J. Zhang, L. Q. Huy, H. Li, and P. Shum, Asia Communications and Photonics Conference (Optical Society of America, 2013), paper ATh3C.5.

Ishaaya, A. A.

Ivanova, O. A.

M. V. Chekhova, O. A. Ivanova, V. Berardi, and A. Garuccio, Phys. Rev. A 72, 023818 (2005).
[Crossref]

Jennewein, T.

H. Hübel, D. R. Hamel, A. Fedrizzi, S. Ramelow, K. J. Resch, and T. Jennewein, Nature 466, 09175 (2010).
[Crossref]

Just, F.

Kang, M. S.

K. H. Nam, D. S. Han, and M. S. Kang, in Conference on Lasers and Electro-Optics Pacific Rim (CLEO-PR) (Optical Society of America, 2015), paper 25C3-4.

Katamadze, K.

S. Tsvetkov, K. Katamadze, N. Borshchevskaia, A. Sysolyatin, M. Fedorov, S. Kulik, M. Salganskii, and A. Belanov, Laser Phys. Lett. 13, 025104 (2016).
[Crossref]

Katamadze, K. G.

N. A. Borshchevskaya, K. G. Katamadze, S. P. Kulik, and M. V. Fedorov, Laser Phys. Lett. 12, 115404 (2015).
[Crossref]

Katsura, T.

A. Borne, T. Katsura, C. Félix, B. Doppagne, P. Segonds, K. Bencheikh, and B. Boulanger, Opt. Commun. 358, 160 (2016).
[Crossref]

Khrapko, R. R.

Klyshko, D. N.

P. V. Elyutin and D. N. Klyshko, Phys. Lett. A 149, 241 (1990).
[Crossref]

Knight, J. C.

Knight, P. L.

K. Banaszek and P. L. Knight, Phys. Rev. A 55, 2368 (1997).
[Crossref]

Krabshuis, G.

Kulik, S.

S. Tsvetkov, K. Katamadze, N. Borshchevskaia, A. Sysolyatin, M. Fedorov, S. Kulik, M. Salganskii, and A. Belanov, Laser Phys. Lett. 13, 025104 (2016).
[Crossref]

Kulik, S. P.

N. A. Borshchevskaya, K. G. Katamadze, S. P. Kulik, and M. V. Fedorov, Laser Phys. Lett. 12, 115404 (2015).
[Crossref]

Lee, T.

Leuchs, G.

Levenson, A.

K. Bencheikh, S. Richard, G. Mélin, G. Krabshuis, F. Gooijer, and A. Levenson, Opt. Lett. 37, 289 (2012).
[Crossref]

K. Bencheikh, F. Gravier, J. Douady, A. Levenson, B. Boulanger, and C. R. Physique, Comptes Rendus Physique 8, 206 (2007).
[Crossref]

Levenson, J. A.

Li, H.

T. Huang, Z. Wu, X. Shao, J. Zhang, L. Q. Huy, H. Li, and P. Shum, Asia Communications and Photonics Conference (Optical Society of America, 2013), paper ATh3C.5.

Li, Y.

J. Bai, W. Xing, C. Yang, Y. Li, and D. M. Bird, IEEE Photon. Technol. Lett. 24, 389 (2012).
[Crossref]

Light, P. S.

Lohe, M. A.

Luan, F.

McLachlan, R. I.

S. L. Braunstein and R. I. McLachlan, Phys. Rev. A 35, 1659 (1987).
[Crossref]

Mélin, G.

Mlynek, J.

T. Felbinger, S. Schiller, and J. Mlynek, Phys. Rev. Lett. 80, 492 (1998).
[Crossref]

Monro, T. M.

Montz, Z.

Nam, K. H.

K. H. Nam, D. S. Han, and M. S. Kang, in Conference on Lasers and Electro-Optics Pacific Rim (CLEO-PR) (Optical Society of America, 2015), paper 25C3-4.

Omenetto, F. G.

Pearce, G. J.

Perry, S. P.

Physique, C. R.

K. Bencheikh, F. Gravier, J. Douady, A. Levenson, B. Boulanger, and C. R. Physique, Comptes Rendus Physique 8, 206 (2007).
[Crossref]

Quiquempois, Y.

Ramelow, S.

H. Hübel, D. R. Hamel, A. Fedrizzi, S. Ramelow, K. J. Resch, and T. Jennewein, Nature 466, 09175 (2010).
[Crossref]

Resch, K. J.

H. Hübel, D. R. Hamel, A. Fedrizzi, S. Ramelow, K. J. Resch, and T. Jennewein, Nature 466, 09175 (2010).
[Crossref]

Richard, S.

Roberts, P. J.

Salganskii, M.

S. Tsvetkov, K. Katamadze, N. Borshchevskaia, A. Sysolyatin, M. Fedorov, S. Kulik, M. Salganskii, and A. Belanov, Laser Phys. Lett. 13, 025104 (2016).
[Crossref]

Savchenko, A.

Schiller, S.

T. Felbinger, S. Schiller, and J. Mlynek, Phys. Rev. Lett. 80, 492 (1998).
[Crossref]

Segonds, P.

A. Borne, T. Katsura, C. Félix, B. Doppagne, P. Segonds, K. Bencheikh, and B. Boulanger, Opt. Commun. 358, 160 (2016).
[Crossref]

Shao, X.

Y. Sun, X. Shao, T. Huang, Z. Wu, T. Lee, S. P. Perry, and G. Brambilla, J. Opt. Soc. Am. B 31, 2142 (2014).
[Crossref]

T. Huang, Z. Wu, X. Shao, J. Zhang, L. Q. Huy, H. Li, and P. Shum, Asia Communications and Photonics Conference (Optical Society of America, 2013), paper ATh3C.5.

Sharapova, P. R.

Shum, P.

T. Huang, Z. Wu, X. Shao, J. Zhang, L. Q. Huy, H. Li, and P. Shum, Asia Communications and Photonics Conference (Optical Society of America, 2013), paper ATh3C.5.

St.J. Russell, P.

Sun, Y.

Sysolyatin, A.

S. Tsvetkov, K. Katamadze, N. Borshchevskaia, A. Sysolyatin, M. Fedorov, S. Kulik, M. Salganskii, and A. Belanov, Laser Phys. Lett. 13, 025104 (2016).
[Crossref]

Taheri, M.

Taylor, A. J.

Tsvetkov, S.

S. Tsvetkov, K. Katamadze, N. Borshchevskaia, A. Sysolyatin, M. Fedorov, S. Kulik, M. Salganskii, and A. Belanov, Laser Phys. Lett. 13, 025104 (2016).
[Crossref]

U’Ren, A. B.

Wadsworth, W. J.

Wang, Y. Y.

Wheeler, N. V.

Wu, Z.

Y. Sun, X. Shao, T. Huang, Z. Wu, T. Lee, S. P. Perry, and G. Brambilla, J. Opt. Soc. Am. B 31, 2142 (2014).
[Crossref]

T. Huang, Z. Wu, X. Shao, J. Zhang, L. Q. Huy, H. Li, and P. Shum, Asia Communications and Photonics Conference (Optical Society of America, 2013), paper ATh3C.5.

Xing, W.

J. Bai, W. Xing, C. Yang, Y. Li, and D. M. Bird, IEEE Photon. Technol. Lett. 24, 389 (2012).
[Crossref]

Yang, C.

J. Bai, W. Xing, C. Yang, Y. Li, and D. M. Bird, IEEE Photon. Technol. Lett. 24, 389 (2012).
[Crossref]

Zhang, J.

T. Huang, Z. Wu, X. Shao, J. Zhang, L. Q. Huy, H. Li, and P. Shum, Asia Communications and Photonics Conference (Optical Society of America, 2013), paper ATh3C.5.

Comptes Rendus Physique (1)

K. Bencheikh, F. Gravier, J. Douady, A. Levenson, B. Boulanger, and C. R. Physique, Comptes Rendus Physique 8, 206 (2007).
[Crossref]

IEEE Photon. Technol. Lett. (1)

J. Bai, W. Xing, C. Yang, Y. Li, and D. M. Bird, IEEE Photon. Technol. Lett. 24, 389 (2012).
[Crossref]

J. Lightwave Technol. (1)

J. Opt. Soc. Am. B (1)

Laser Phys. Lett. (2)

S. Tsvetkov, K. Katamadze, N. Borshchevskaia, A. Sysolyatin, M. Fedorov, S. Kulik, M. Salganskii, and A. Belanov, Laser Phys. Lett. 13, 025104 (2016).
[Crossref]

N. A. Borshchevskaya, K. G. Katamadze, S. P. Kulik, and M. V. Fedorov, Laser Phys. Lett. 12, 115404 (2015).
[Crossref]

Nature (1)

H. Hübel, D. R. Hamel, A. Fedrizzi, S. Ramelow, K. J. Resch, and T. Jennewein, Nature 466, 09175 (2010).
[Crossref]

Opt. Commun. (3)

V. Grubsky and J. Feinberg, Opt. Commun. 274, 447 (2007).
[Crossref]

A. Coillet and P. Grelu, Opt. Commun. 285, 3493 (2012).
[Crossref]

A. Borne, T. Katsura, C. Félix, B. Doppagne, P. Segonds, K. Bencheikh, and B. Boulanger, Opt. Commun. 358, 160 (2016).
[Crossref]

Opt. Express (5)

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Other (4)

The scanning electron microscope used to measure the fiber dimensions is a Hitachi S4800 I with a resolution of 2.0 nm (1 kV, Normal mode).

See Schott Optical Glass Data Sheets: http://www.schott.com/advanced_optics/english/download/schott-optical-glass-collection-datasheets-july-2015-eng.pdf .

T. Huang, Z. Wu, X. Shao, J. Zhang, L. Q. Huy, H. Li, and P. Shum, Asia Communications and Photonics Conference (Optical Society of America, 2013), paper ATh3C.5.

K. H. Nam, D. S. Han, and M. S. Kang, in Conference on Lasers and Electro-Optics Pacific Rim (CLEO-PR) (Optical Society of America, 2015), paper 25C3-4.

Supplementary Material (1)

NameDescription
» Supplement 1: PDF (1916 KB)      This document contains more information regarding the characteristics of the presented fiber.

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Figures (5)

Fig. 1.
Fig. 1. (a) Scanning electron micrograph of the hybrid fiber and (b) zooming into the all-solid bandgap microstructure. Black is air, gray is low-refractive-index glass (Schott LLF1), and white is high-refractive-index glass (Schott SF6).
Fig. 2.
Fig. 2. Refractive indices as a function of wavelength for the pump and the third harmonic modes, calculated by FEM using the dimensions of the fabricated fiber. The phase matching wavelengths are marked with a small circle. The upper inset shows the calculated Poynting vector distributions of the fundamental (LP01) mode at 1491 nm. The lower inset shows the third harmonic (PBG) mode at 497 nm.
Fig. 3.
Fig. 3. Spectrum of (a) the third harmonic and (b) the pump and the measured near-field intensity distributions of the corresponding modes.
Fig. 4.
Fig. 4. Generated third harmonic power versus pump power. The measurement was performed with two calibrated cameras. A linear fit in the logarithmic scale yields a slope of 3.02±0.01.
Fig. 5.
Fig. 5. Normalized three-photon parametric downconversion rate calculated as a function of the signal and idler wavelengths for a 10 cm long fiber and pump wavelengths (a) 503.9 nm and (b) 503.8 nm.

Equations (1)

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Rsinc2(ΔkL2),

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