Characterization of non-idealities in optical Nyquist pulses for THz signal sampling metrology

Souvaraj De, R. Das, T. Kleine-Ostmann, T. Schneider
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Abstract

Optical sinc-shaped Nyquist pulses can be utilized for high-speed communication with minimal error as it enables orthogonality and rectangular shape in the frequency domain, etc. Nevertheless, for metrological evaluations, the performance of the system is hampered by the presence of non-idealities. In this work, we simulate and examine the impact of two prime non-idealities: the sideband suppression ratio (SSR) and the roll-off factor of sinc-shaped reconfigurable Nyquist pulse sequences based on 3-line optical phase-locked combs at a frequency spacing of 200 GHz. Furthermore, we estimate the root-mean-square (r.m.s.) error for the respective non-idealities.
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太赫兹信号采样测量中奈奎斯特光脉冲的非理想特性
光学型奈奎斯特脉冲具有频域正交性和矩形等特点,可用于误差最小的高速通信。然而,对于计量评估,系统的性能受到非理想性存在的阻碍。在这项工作中,我们模拟并研究了两种主要非理想性的影响:边带抑制比(SSR)和滚降因子,这两种非理想性是基于3线光锁相梳在200 GHz频率间隔下的自形可重构奈奎斯特脉冲序列。此外,我们估计了各自的非理想性的均方根(rms)误差。
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