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Showing 1 to 8 of 8 entries
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Competing four-wave mixing processes in dispersion oscillating telecom fiber.

Optics letters

Finot C, Fatome J, Sysoliatin A, Kosolapov A, Wabnitz S.
PMID: 24322258
Opt Lett. 2013 Dec 15;38(24):5361-4. doi: 10.1364/OL.38.005361.

We experimentally study the dynamics of the generation of multiple sidebands by means of a quasi-phase-matched four-wave mixing (FWM) process occurring in a dispersion-oscillating, highly nonlinear optical fiber. The fiber under test is pumped by a ns microchip laser...

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Finot C, Fatome J, Sysoliatin A, et al. Competing four-wave mixing processes in dispersion oscillating telecom fiber. Opt Lett. 2013;38(24):5361-4doi: 10.1364/OL.38.005361.
Finot, C., Fatome, J., Sysoliatin, A., Kosolapov, A., & Wabnitz, S. (2013). Competing four-wave mixing processes in dispersion oscillating telecom fiber. Optics letters, 38(24), 5361-4. https://doi.org/10.1364/OL.38.005361
Finot, Christophe, et al. "Competing four-wave mixing processes in dispersion oscillating telecom fiber." Optics letters vol. 38,24 (2013): 5361-4. doi: https://doi.org/10.1364/OL.38.005361
Finot C, Fatome J, Sysoliatin A, Kosolapov A, Wabnitz S. Competing four-wave mixing processes in dispersion oscillating telecom fiber. Opt Lett. 2013 Dec 15;38(24):5361-4. doi: 10.1364/OL.38.005361. PMID: 24322258.
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Wavelength-tunable few-cycle optical pulses directly from an all-fiber Er-doped laser setup.

Optics letters

Andrianov A, Kim A, Muraviov S, Sysoliatin A.
PMID: 19838270
Opt Lett. 2009 Oct 15;34(20):3193-5. doi: 10.1364/OL.34.003193.

A simple design, which we believe to be the first of its kind, of an all-fiber-based optical source is proposed for the generation of widely tunable few-cycle pulses as short as 20-25 fs duration in the range of 1.6-2.1...

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Andrianov A, Kim A, Muraviov S, et al. Wavelength-tunable few-cycle optical pulses directly from an all-fiber Er-doped laser setup. Opt Lett. 2009;34(20):3193-5doi: 10.1364/OL.34.003193.
Andrianov, A., Kim, A., Muraviov, S., & Sysoliatin, A. (2009). Wavelength-tunable few-cycle optical pulses directly from an all-fiber Er-doped laser setup. Optics letters, 34(20), 3193-5. https://doi.org/10.1364/OL.34.003193
Andrianov, Alexey, et al. "Wavelength-tunable few-cycle optical pulses directly from an all-fiber Er-doped laser setup." Optics letters vol. 34,20 (2009): 3193-5. doi: https://doi.org/10.1364/OL.34.003193
Andrianov A, Kim A, Muraviov S, Sysoliatin A. Wavelength-tunable few-cycle optical pulses directly from an all-fiber Er-doped laser setup. Opt Lett. 2009 Oct 15;34(20):3193-5. doi: 10.1364/OL.34.003193. PMID: 19838270.
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Gigahertz-repetition-rate mode-locked fiber laser for continuum generation.

Optics letters

Yu CX, Haus HA, Ippen EP, Wong WS, Sysoliatin A.
PMID: 18066234
Opt Lett. 2000 Oct 01;25(19):1418-20. doi: 10.1364/ol.25.001418.

We report direct generation of

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Yu CX, Haus HA, Ippen EP, et al. Gigahertz-repetition-rate mode-locked fiber laser for continuum generation. Opt Lett. 2000;25(19):1418-20doi: 10.1364/ol.25.001418.
Yu, C. X., Haus, H. A., Ippen, E. P., Wong, W. S., & Sysoliatin, A. (2000). Gigahertz-repetition-rate mode-locked fiber laser for continuum generation. Optics letters, 25(19), 1418-20. https://doi.org/10.1364/ol.25.001418
Yu, C X, et al. "Gigahertz-repetition-rate mode-locked fiber laser for continuum generation." Optics letters vol. 25,19 (2000): 1418-20. doi: https://doi.org/10.1364/ol.25.001418
Yu CX, Haus HA, Ippen EP, Wong WS, Sysoliatin A. Gigahertz-repetition-rate mode-locked fiber laser for continuum generation. Opt Lett. 2000 Oct 01;25(19):1418-20. doi: 10.1364/ol.25.001418. PMID: 18066234.
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Parabolic pulse generation with active or passive dispersion decreasing optical fibers.

Optics express

Finot C, Barviau B, Millot G, Guryanov A, Sysoliatin A, Wabnitz S.
PMID: 19550867
Opt Express. 2007 Nov 26;15(24):15824-35. doi: 10.1364/oe.15.015824.

We experimentally demonstrate the possibility to generate parabolic pulses via a single dispersion decreasing optical fiber with normal dispersion. We numerically and experimentally investigate the influence of the dispersion profile, and we show that a hybrid configuration combining dispersion...

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Finot C, Barviau B, Millot G, et al. Parabolic pulse generation with active or passive dispersion decreasing optical fibers. Opt Express. 2007;15(24):15824-35doi: 10.1364/oe.15.015824.
Finot, C., Barviau, B., Millot, G., Guryanov, A., Sysoliatin, A., & Wabnitz, S. (2007). Parabolic pulse generation with active or passive dispersion decreasing optical fibers. Optics express, 15(24), 15824-35. https://doi.org/10.1364/oe.15.015824
Finot, Christophe, et al. "Parabolic pulse generation with active or passive dispersion decreasing optical fibers." Optics express vol. 15,24 (2007): 15824-35. doi: https://doi.org/10.1364/oe.15.015824
Finot C, Barviau B, Millot G, Guryanov A, Sysoliatin A, Wabnitz S. Parabolic pulse generation with active or passive dispersion decreasing optical fibers. Opt Express. 2007 Nov 26;15(24):15824-35. doi: 10.1364/oe.15.015824. PMID: 19550867.
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Soliton fission management by dispersion oscillating fiber.

Optics express

Sysoliatin AA, Senatorov AK, Konyukhov AI, Melnikov LA, Stasyuk VA.
PMID: 19550919
Opt Express. 2007 Dec 10;15(25):16302-7. doi: 10.1364/oe.15.016302.

We report the experimental observation of the fission of picosecond solitons in a fiber with sine-wave variation of the core diameter along the longitudinal direction of propagation. The experimental pulse dynamics is reproduced by numerical simulations. The fission of...

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Sysoliatin AA, Senatorov AK, Konyukhov AI, et al. Soliton fission management by dispersion oscillating fiber. Opt Express. 2007;15(25):16302-7doi: 10.1364/oe.15.016302.
Sysoliatin, A. A., Senatorov, A. K., Konyukhov, A. I., Melnikov, L. A., & Stasyuk, V. A. (2007). Soliton fission management by dispersion oscillating fiber. Optics express, 15(25), 16302-7. https://doi.org/10.1364/oe.15.016302
Sysoliatin, Alexej A, et al. "Soliton fission management by dispersion oscillating fiber." Optics express vol. 15,25 (2007): 16302-7. doi: https://doi.org/10.1364/oe.15.016302
Sysoliatin AA, Senatorov AK, Konyukhov AI, Melnikov LA, Stasyuk VA. Soliton fission management by dispersion oscillating fiber. Opt Express. 2007 Dec 10;15(25):16302-7. doi: 10.1364/oe.15.016302. PMID: 19550919.
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Experimental demonstration of spectral sideband splitting in strongly dispersion oscillating fibers.

Optics letters

Feng F, Morin P, Chembo YK, Sysoliatin A, Wabnitz S, Finot C.
PMID: 25680123
Opt Lett. 2015 Feb 15;40(4):455-8. doi: 10.1364/OL.40.000455.

By using a highly nonlinear, dispersion oscillating optical fiber operating in the telecom C band, we experimentally demonstrate the splitting experienced by quasi-phase matched gain sidebands in the strongly dispersion managed regime of a dispersion oscillating fiber as the...

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Feng F, Morin P, Chembo YK, et al. Experimental demonstration of spectral sideband splitting in strongly dispersion oscillating fibers. Opt Lett. 2015;40(4):455-8doi: 10.1364/OL.40.000455.
Feng, F., Morin, P., Chembo, Y. K., Sysoliatin, A., Wabnitz, S., & Finot, C. (2015). Experimental demonstration of spectral sideband splitting in strongly dispersion oscillating fibers. Optics letters, 40(4), 455-8. https://doi.org/10.1364/OL.40.000455
Feng, Fang, et al. "Experimental demonstration of spectral sideband splitting in strongly dispersion oscillating fibers." Optics letters vol. 40,4 (2015): 455-8. doi: https://doi.org/10.1364/OL.40.000455
Feng F, Morin P, Chembo YK, Sysoliatin A, Wabnitz S, Finot C. Experimental demonstration of spectral sideband splitting in strongly dispersion oscillating fibers. Opt Lett. 2015 Feb 15;40(4):455-8. doi: 10.1364/OL.40.000455. PMID: 25680123.
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Experimental demonstration of spectral broadening in an all-silica Bragg fiber.

Optics express

Bookey HT, Dasgupta S, Bezawada N, Pal BP, Sysoliatin A, McCarthy JE, Salganskii M, Khopin V, Kar AK.
PMID: 19770930
Opt Express. 2009 Sep 14;17(19):17130-5. doi: 10.1364/OE.17.017130.

We present the first report on experimental observation of nonlinear spectral broadening in an all-solid photonic band gap Bragg fiber of relatively large mode area approximately 62 microm(2). The theoretically designed Bragg fiber for this specific application was fabricated...

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Bookey HT, Dasgupta S, Bezawada N, et al. Experimental demonstration of spectral broadening in an all-silica Bragg fiber. Opt Express. 2009;17(19):17130-5doi: 10.1364/OE.17.017130.
Bookey, H. T., Dasgupta, S., Bezawada, N., Pal, B. P., Sysoliatin, A., McCarthy, J. E., Salganskii, M., Khopin, V., & Kar, A. K. (2009). Experimental demonstration of spectral broadening in an all-silica Bragg fiber. Optics express, 17(19), 17130-5. https://doi.org/10.1364/OE.17.017130
Bookey, Henry T, et al. "Experimental demonstration of spectral broadening in an all-silica Bragg fiber." Optics express vol. 17,19 (2009): 17130-5. doi: https://doi.org/10.1364/OE.17.017130
Bookey HT, Dasgupta S, Bezawada N, Pal BP, Sysoliatin A, McCarthy JE, Salganskii M, Khopin V, Kar AK. Experimental demonstration of spectral broadening in an all-silica Bragg fiber. Opt Express. 2009 Sep 14;17(19):17130-5. doi: 10.1364/OE.17.017130. PMID: 19770930.
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Theory of parabolic pulse generation in tapered fiber.

Optics letters

Latkin AI, Turitsyn SK, Sysoliatin AA.
PMID: 17356643
Opt Lett. 2007 Feb 15;32(4):331-3. doi: 10.1364/ol.32.000331.

We examine similarities and differences between high-power parabolic pulse generation in an active medium and in tapered fiber with decreasing normal dispersion. Using a realistic tapered fiber design, we demonstrate the possibility of parabolic pulse generation without an external...

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Latkin AI, Turitsyn SK, Sysoliatin AA. Theory of parabolic pulse generation in tapered fiber. Opt Lett. 2007;32(4):331-3doi: 10.1364/ol.32.000331.
Latkin, A. I., Turitsyn, S. K., & Sysoliatin, A. A. (2007). Theory of parabolic pulse generation in tapered fiber. Optics letters, 32(4), 331-3. https://doi.org/10.1364/ol.32.000331
Latkin, Anton I, et al. "Theory of parabolic pulse generation in tapered fiber." Optics letters vol. 32,4 (2007): 331-3. doi: https://doi.org/10.1364/ol.32.000331
Latkin AI, Turitsyn SK, Sysoliatin AA. Theory of parabolic pulse generation in tapered fiber. Opt Lett. 2007 Feb 15;32(4):331-3. doi: 10.1364/ol.32.000331. PMID: 17356643.
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Showing 1 to 8 of 8 entries