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Journal articles on the topic 'Nonlinear polarisation rotation'

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Author: Grafiati
Published: 10 December 2022
Last updated: 28 January 2023

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1

Pottiez, O., E. A. Kuzin, B. Ibarra-Escamilla, J. T. Camas-Anzueto, and F. Gutiérrez-Zainos. "Experimental demonstration of NOLM switching based on nonlinear polarisation rotation." Electronics Letters 40, no. 14 (2004): 892. http://dx.doi.org/10.1049/el:20045137.

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2

Manning, R. J., A. Antonopoulos, R. Le Roux, and A. E. Kelly. "Experimental measurement of nonlinear polarisation rotation in semiconductor optical amplifiers." Electronics Letters 37, no. 4 (2001): 229. http://dx.doi.org/10.1049/el:20010143.

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3

Anyi, C. L., H. Haris, S. W. Harun, N. M. Ali, and H. Arof. "Nanosecond pulse fibre laser based on nonlinear polarisation rotation effect." Electronics Letters 49, no. 19 (September 2013): 1240–41. http://dx.doi.org/10.1049/el.2013.2174.

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4

Wang, Z., C. Xie, and X. Ren. "Measurement of Kerr nonlinearity coefficient of fibres using nonlinear polarisation rotation." Electronics Letters 45, no. 11 (2009): 539. http://dx.doi.org/10.1049/el.2009.1053.

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5

Rahman, A. A., Z. S. Salleh, C. L. Anyi, S. W. Harun, M. Manaf, and H. Arof. "Q-Switched Erbium-Doped Fiber Laser Based on Nonlinear Polarisation Rotation Technique." Journal of Nanoelectronics and Optoelectronics 9, no. 4 (August 1, 2014): 525–28. http://dx.doi.org/10.1166/jno.2014.1632.

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6

Konyashchenko, Aleksandr V., P. V. Kostryukov, Leonid L. Losev, and S. Yu Tenyakov. "Capillary compressor of femtosecond laser pulses with nonlinear rotation of polarisation ellipse." Quantum Electronics 42, no. 3 (March 31, 2012): 231–34. http://dx.doi.org/10.1070/qe2012v042n03abeh014821.

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7

Matsas, V. J., T. P. Newson, D. J. Richardson, and D. N. Payne. "Selfstarting passively mode-locked fibre ring soliton laser exploiting nonlinear polarisation rotation." Electronics Letters 28, no. 15 (1992): 1391. http://dx.doi.org/10.1049/el:19920885.

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8

Wei, S., W. Zhang, J. Shang, and L. Yin. "Torsion sensing characteristics of fibre ring laser based on nonlinear polarisation rotation." Electronics Letters 48, no. 2 (2012): 116. http://dx.doi.org/10.1049/el.2011.3433.

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9

Zel'dovich, Boris Ya, and N. D. Kundikova. "Intrafibre rotation of the plane of polarisation." Quantum Electronics 25, no. 2 (February 28, 1995): 172–74. http://dx.doi.org/10.1070/qe1995v025n02abeh000317.

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10

Kennedy, B. F., P. Landais, A. L. Bradley, F. Surre, and S. Philippe. "Investigation of optimum wavelength converter based on nonlinear polarisation rotation in a bulk SOA." IET Optoelectronics 1, no. 2 (April 1, 2007): 55–60. http://dx.doi.org/10.1049/iet-opt:20060047.

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11

Yu, H. L., X. L. Wang, P. Zhou, and J. B. Chen. "Multi-pulse operation of a dissipative soliton fibre laser based on nonlinear polarisation rotation." Quantum Electronics 46, no. 3 (March 29, 2016): 213–17. http://dx.doi.org/10.1070/qel15927.

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12

Hamzah, A., M. C. Paul, N. A. Awang, H. Ahmad, M. Pal, S. Das, M. A. Ismail, and S. W. Harun. "Passively mode-locked erbium doped zirconia fiber laser using a nonlinear polarisation rotation technique." Optics & Laser Technology 47 (April 2013): 22–25. http://dx.doi.org/10.1016/j.optlastec.2012.08.014.

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13

Gorbatov, D. V., V. A. Konyshev, T. O. Lukinykh, O. E. Nanii, A. G. Novikov, V. N. Treshchikov, and R. R. Ubaydullaev. "Effect of anisotropy of a single-mode fibre on lightning-induced rotation of polarisation of a light signal in an optical ground wire." Quantum Electronics 52, no. 1 (January 1, 2022): 87–93. http://dx.doi.org/10.1070/qel17970.

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Abstract A numerical model is constructed for calculating lightning-induced rapid changes in the polarisation state of a light signal at the output of a fibre-optic communication line with an optical ground wire. It is shown that taking into account anisotropy of real optical fibres has a noticeable effect on the shape of the polarisation rotation speed time profile. It is found that the maximum rate of change in the polarisation state and its temporal profile depend on the location of the lightning strike in the fibre span, the magnitude of fibre anisotropy and the direction of propagation of a light wave.
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14

Pottiez, O., B. Ibarra-Escamilla, and E. A. Kuzin. "Step-like all-optical decision function using nonlinear polarisation rotation in a Nonlinear Optical Loop Mirror and in a subsequent fibre section with output polarisation selection." Optical Fiber Technology 15, no. 3 (June 2009): 258–65. http://dx.doi.org/10.1016/j.yofte.2008.12.001.

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15

Yang, X., A. K. Mishra, R. J. Manning, and R. Giller. "All-optical 40 Gbit/s NRZ to RZ format conversion by nonlinear polarisation rotation in SOAs." Electronics Letters 43, no. 8 (2007): 469. http://dx.doi.org/10.1049/el:20070519.

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16

Babar, I. M., M. B. S. Sabran, A. A. Rahman, M. Manaf, H. Ahmad, and S. W. Harun. "Multi-lobed double-clad Erbium-Ytterbium co-doped Q-switched fiber laser based on nonlinear polarisation rotation technique." Journal of Nonlinear Optical Physics & Materials 24, no. 01 (March 2015): 1550002. http://dx.doi.org/10.1142/s0218863515500022.

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In this paper, we experimentally demonstrate a stable passive Q-switched fiber laser operating at 1543.5 nm using a double clad Erbium-Ytterbium co-doped fiber (EYDF) as the gain medium in conjunction with nonlinear polarization rotation (NPR) technique. An isolator is used in conjunction with a highly nonlinear EYDF to induce intensity dependent loss in a sufficiently-high loss ring cavity to achieve Q-switched operation with a low pump threshold of 300 mW. At 980 nm multimode pump power of 500 mW, the EYDF laser generates an optical pulse train with a repetition rate of 46.95 kHz, pulse width of 5.3 μs and pulse energy of 75.6 nJ. The simple and inexpensive Q-switched NPR-based laser has a big potential for applications in metrology, environmental sensing and biomedical diagnostics.
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17

Turkiewicz, J. P., G. D. Khoe, and H. de Waardt. "All-optical 1310 to 1550 nm wavelength conversion by utilising nonlinear polarisation rotation in semiconductor optical amplifier." Electronics Letters 41, no. 1 (2005): 29. http://dx.doi.org/10.1049/el:20057435.

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18

Volkov, I. A., V. A. Kamynin, P. A. Itrin, S. N. Ushakov, K. N. Nishchev, and V. B. Tsvetkov. "Control over pulsed operation modes of an erbium-doped fibre laser passively mode-locked via nonlinear polarisation rotation." Quantum Electronics 50, no. 2 (February 12, 2020): 153–56. http://dx.doi.org/10.1070/qel17174.

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19

Nakazawa, M., E. Yoshida, T. Sugawa, and Y. Kimura. "Continuum suppressed, uniformly repetitive 136 fs pulse generation from an erbium-doped fibre laser with nonlinear polarisation rotation." Electronics Letters 29, no. 15 (1993): 1327. http://dx.doi.org/10.1049/el:19930890.

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20

Kotov, V. M., and E. V. Kotov. "Broadband acousto-optic control of the rotation velocity of the radiation polarisation vector." Quantum Electronics 48, no. 8 (August 28, 2018): 773–76. http://dx.doi.org/10.1070/qel16667.

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21

Khodakovskiy, N. G., M. P. Kalashnikov, V. Pajer, A. Blumenstein, P. Simon, M. M. Toktamis, M. Lozano, et al. "Generation of few-cycle laser pulses with high temporal contrast via nonlinear elliptical polarisation rotation in a hollow fibre compressor." Laser Physics Letters 16, no. 9 (August 20, 2019): 095001. http://dx.doi.org/10.1088/1612-202x/ab3852.

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22

Zhang, J., J. Wu, C. Feng, K. Xu, and J. Lin. "40 Gbit/s all-optical logic NOR gate based on nonlinear polarisation rotation in SOA and blue-shifted sideband filtering." Electronics Letters 42, no. 21 (2006): 1243. http://dx.doi.org/10.1049/el:20062025.

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23

Kotov, V. M. "Formation of light with controlled rotation of the polarisation plane by superposing linearly polarised waves." Quantum Electronics 49, no. 11 (November 15, 2019): 1032–35. http://dx.doi.org/10.1070/qel17023.

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24

Greer, E. J., K. Suzuki, Y. Kimura, M. Nakazawa, and E. Yoshida. "Generation of 1.2 ps, 10 GHz pulse train from all-optically modelocked, erbium fibre ring laser with active nonlinear polarisation rotation." Electronics Letters 30, no. 21 (October 13, 1994): 1764–65. http://dx.doi.org/10.1049/el:19941215.

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25

Opreni, Andrea, Nicolò Boni, Roberto Carminati, and Attilio Frangi. "Analysis of the Nonlinear Response of Piezo-Micromirrors with the Harmonic Balance Method." Actuators 10, no. 2 (January 25, 2021): 21. http://dx.doi.org/10.3390/act10020021.

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In this work, we address the simulation and testing of MEMS micromirrors with hardening and softening behaviour excited with patches of piezoelectric materials. The forces exerted by the piezoelectric patches are modelled by means of the theory of ferroelectrics developed by Landau–Devonshire and are based on the experimentally measured polarisation hysteresis loops. The large rotations experienced by the mirrors also induce geometrical nonlinearities in the formulation up to cubic order. The solution of the proposed model is performed by discretising the device geometry using the Finite Element Method, and the resulting large system of coupled differential equations is solved by means of the Harmonic Balance Method. Numerical results were validated with experimental data collected on the devices.
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26

Nikiforov, V. G. "Multipulse polarisation selective spectroscopy of rotational and vibrational responses of molecules in a liquid." Quantum Electronics 43, no. 2 (February 28, 2013): 177–83. http://dx.doi.org/10.1070/qe2013v043n02abeh014980.

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27

Kotov, V. M. "Production of two-colour radiation with polarisations of components rotating in opposite directions." Quantum Electronics 50, no. 12 (December 2020): 1167–72. http://dx.doi.org/10.1070/qel17418.

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