Dániel Mazroa scite author profile

Dániel Mazroa

5Publications

40Citation Statements Received

29Citation Statements Given

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Affiliations

Budapest University of Technology and Economics, National Institute of Information and Communications Technology, Andrássy University Budapest

Publications

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Phase-squeezing properties of non-degenerate PSAs using PPLN waveguides

Puttnam¹,

Mazroa²,

Shinada³

et al. 2011

Opt. Express

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We investigate the phase squeezing characteristics of non-degenerate phase-sensitive-amplifiers (PSAs) based on periodically-poled-lithium-niobate (PPLN) waveguides. We implement two PSA configurations with phase insensitive idler generation performed in both highly-non-linear-fiber (HNLF) and PPLN waveguides. In both cases we demonstrate regeneration of a noisy BPSK signal, despite net signal attenuation in the phase sensitive PPLN, and show that the level of phase squeezing varies with the phase sensitive dynamic range (PSDR). We observe that weak idler generation in the PPLN limits the achievable PSDR and that use of HNLF for idler generation leads to the largest PSDR. However, in phase regeneration measurements we observe that the pump phase modulation, required to overcome stimulated Brillouin scattering, adds significant amplitude noise, which increases with the PSDR.

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Large Phase Sensitive Gain in Periodically Poled Lithium–Niobate With High Pump Power

Puttnam

Mazroa

Shinada

et al. 2011

IEEE Photon. Technol. Lett.

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Phase-sensitive amplification in a single bi-directional PPLN waveguide

Albuquerque¹,

Puttnam²,

Drummond³

et al. 2013

Opt. Express

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We investigate phase-sensitive amplification (PSA) and phase regeneration of a binary phase-shift keying (BPSK) signal using a single periodically poled lithium niobate (PPLN) waveguide. The PPLN is operated bi-directionally in order to simultaneously achieve phase correlated signals and phase-sensitive (PS) operation. We use injection-locking for carrier phase recovery and a lead zirconate titanate (PZT) fiber stretcher to correct path length deviations in the in-line phase regenerator. We observe a trade-off between high PS gain provided by high pumping power and stability of the device.

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Determining the maximum signal power in 10 Gbit/s WDM optical networks

2008

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Nowadays in optical networks there is a trend line to extend the maximum transmission distance. Several techniques are known; however, the simplest one is to increase the signal power in the optical fiber. The task of minimizing the number of inline amplifiers in order to increase the deployed system's cost effectiveness leads to increasing the signal power. The only problem is the nonlinear behavior of the optical fiber which limits the signal power to be inserted into the optical fibers. In this paper, we present a model to calculate analytically the signal quality deterioration due to nonlinear effects at the receiver point. As a result, we give the exact value of the optimal signal power at the transmitter point or at the output of the inline amplifiers for 10 Gbit/s wavelength division multiplexed (WDM) systems.

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Multi-channel phase squeezing in a PPLN-PPLN PSA

Puttnam

Szabó

Mazroa

et al. 2012

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Dániel Mazroa

Phase-squeezing properties of non-degenerate PSAs using PPLN waveguides

Large Phase Sensitive Gain in Periodically Poled Lithium–Niobate With High Pump Power

Phase-sensitive amplification in a single bi-directional PPLN waveguide

Determining the maximum signal power in 10 Gbit/s WDM optical networks

Multi-channel phase squeezing in a PPLN-PPLN PSA

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