Cochlear tuning in the gerbil: a comparison of responses to sinusoidal amplitude modulation and difference tone stimuli.

Audiology : official organ of the International Society of Audiology Pub Date : 1998-09-01 DOI:10.3109/00206099809072980

K R Henry

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引用次数: 4

Abstract

Vocalizations often have periodic variations of their acoustic waveform envelope. Two simultaneously presented frequencies have an envelope fluctuation with a frequency equal to their difference tone (DT = F2-F1). Sinusoidal amplitude modulation (SAM) of a carrier frequency also produces an envelope fluctuation. Electrical ensemble responses to DT and SAM stimuli were recorded from the gerbil's round window. The predominant frequency of the response to the DT stimuli is F2-F1; to the SAM stimuli, it is the modulation frequency. Both responses are spectrally, temporally, and dynamically non-linear. Forward masking of a low-frequency DT response produced a tuning curve (TC) with a tip at the high-stimulus frequency. Forward masker TCs of a low-frequency SAM ensemble response had tips at the high frequency of the carrier. Tip thresholds and sharpness of tuning of DT and SAM TCs are quite similar, with cochlear neurons having high characteristic frequencies providing sharply tuned information about low frequency acoustic envelope periodicities.

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沙鼠的耳蜗调谐:对正弦振幅调制和差音刺激的反应比较。

发声通常有其声波波形包络的周期性变化。两个同时呈现的频率具有包络波动，其频率等于其差音(DT = F2-F1)。载波频率的正弦调幅(SAM)也会产生包络波动。从沙鼠的圆窗记录了DT和SAM刺激下的电集合反应。DT刺激反应的主要频率为F2-F1;对于SAM刺激，它是调制频率。这两种反应都是频谱、时间和动态非线性的。低频DT响应的前向掩蔽产生了在高刺激频率处有尖端的调谐曲线(TC)。低频地对空导弹集合响应的前向掩蔽TCs在载波的高频处有尖端。DT和SAM tc的尖端阈值和调谐清晰度非常相似，耳蜗神经元具有高特征频率，提供低频声学包络周期的锐利调谐信息。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Audiology : official organ of the International Society of Audiology

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