Single-point characterization of spectral amplitude and phase changes due to nonlinear propagation

Brent O. Reichman, K. Gee, W. Ohm
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Abstract

A frequency-domain representation of the Burgers equation reveals that the cross-spectrum between the pressure and pressure-squared waveforms can be used to calculate nonlinear frequency-domain effects of finite-amplitude sound propagation. The normalized version of the quadspectrum, Q/S, was introduced by Morfey and Howell and has since been used to point to the nonlinear transfer of energy between frequencies, in particular gaining use in the domain of high-amplitude jet noise propagation. However, one question that remained was that of the interpretation: The physical meaning of the amplitude of Q/S was unclear. Recent analytical work has recast Q/S and the normalized version of the cospectrum, C/S, as a way to estimate sound pressure level and phase changes due to nonlinearity with a single-point measurement. This paper uses various measurements within a plane-wave tube to verify the physical significance of the amplitude and phase changes predicted by Q/S and C/S. Experiments involving sinusoids and band-passed Gaussian noise at various amplitudes show the validity of the single-point measurement to measure the strength of nonlinear effects in both amplitude and phase.A frequency-domain representation of the Burgers equation reveals that the cross-spectrum between the pressure and pressure-squared waveforms can be used to calculate nonlinear frequency-domain effects of finite-amplitude sound propagation. The normalized version of the quadspectrum, Q/S, was introduced by Morfey and Howell and has since been used to point to the nonlinear transfer of energy between frequencies, in particular gaining use in the domain of high-amplitude jet noise propagation. However, one question that remained was that of the interpretation: The physical meaning of the amplitude of Q/S was unclear. Recent analytical work has recast Q/S and the normalized version of the cospectrum, C/S, as a way to estimate sound pressure level and phase changes due to nonlinearity with a single-point measurement. This paper uses various measurements within a plane-wave tube to verify the physical significance of the amplitude and phase changes predicted by Q/S and C/S. Experiments involving sinusoids and ...
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非线性传播引起的光谱振幅和相位变化的单点表征
Burgers方程的频域表示表明,压力和压力平方波形之间的交叉频谱可用于计算有限振幅声音传播的非线性频域效应。四谱的归一化版本Q/S是由Morfey和Howell引入的,此后被用来指出频率之间的非线性能量传递,特别是在高振幅射流噪声传播领域得到了应用。然而,仍有一个问题是解释的问题:Q/S振幅的物理意义尚不清楚。最近的分析工作重新定义了Q/S和同谱的标准化版本C/S,作为一种估计声压级和由于单点测量非线性引起的相位变化的方法。本文利用平面波管内的各种测量来验证Q/S和C/S预测的振幅和相位变化的物理意义。对不同振幅的正弦波和带通高斯噪声的实验表明,单点测量在振幅和相位上测量非线性效应的强度是有效的。Burgers方程的频域表示表明,压力和压力平方波形之间的交叉频谱可用于计算有限振幅声音传播的非线性频域效应。四谱的归一化版本Q/S是由Morfey和Howell引入的,此后被用来指出频率之间的非线性能量传递,特别是在高振幅射流噪声传播领域得到了应用。然而,仍有一个问题是解释的问题:Q/S振幅的物理意义尚不清楚。最近的分析工作重新定义了Q/S和同谱的标准化版本C/S,作为一种估计声压级和由于单点测量非线性引起的相位变化的方法。本文利用平面波管内的各种测量来验证Q/S和C/S预测的振幅和相位变化的物理意义。涉及正弦波和…
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