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1.L. J. Hood, “Update on frequency specificity of AEP measurements,” J. Acad. Audiol. 1, 125129 (1990).
2.S. Kuwada, R. Batra, and V. L. Maher, “Scalp potentials of normal and hearing-impaired subjects in response to sinusoidally amplitude-modulated tones,” Hear. Res. 21, 179192 (1986).
3.G. Plourde, D. R. Stapells, and T. W. Picton, “The human auditory steady-state evoked potentials,” Acta Oto-Laryngol. 491, 153160 (1991).
4.L. T. Cohen, F. W. Rickards, and G. M. Clark, “A comparison of steady-state evoked potentials to modulated tones in awake and sleeping humans,” J. Acoust. Soc. Am. 90, 24672479 (1991).
5.M. Aoyagi, H. Furuse, M. Yokota, T. Kiren, Y. Suzuki, and Y. Koike, “Detectability of amplitude-modulation following response at different carrier frequencies,” Acta Oto-Laryngol. 511, 2327 (1994).
6.W. F. Dolphin, “The envelope following response to multiple tone pair stimuli,” Hear. Res. 110, 114 (1997).
7.M. S. John and T. W. Picton, “Human auditory steady-state responses to amplitude-modulated tones: Phase and latency measurements,” Hear. Res. 141, 5779 (2000).
8.M. C. Perez-Abalo, G. Savio, T. Torres, V. Martin, E. Rodriguez, and L. Galan, “Steady state responses to multiple amplitude-modulated tones: An optimized method to test frequency-specific thresholds in hearing-impaired children and normal-hearing subjects,” Ear Hear. 22, 200211 (2001).
9.T. Dau, O. Wegner, V. Mellert, and B. Kollmeier, “Auditory brainstem responses with optimized chirp signals compensating basilar-membrane dispersion,” J. Acoust. Soc. Am. 107, 15301540 (2000).
10.R. D. Patterson, “A pulse ribbon model of monaural phase perception,” J. Acoust. Soc. Am. 82, 15601586 (1987).
11.A. Kohlrausch and A. Sander, “Phase effects in masking related to dispersion in the inner ear II. Masking period patterns of short targets,” J. Acoust. Soc. Am. 97, 18171829 (1995).
12.M. A. Ruggero, “Cochlear delays and traveling waves: Comments on ‘Experimental look at cochlear mechanics,’Audiology 33, 131142 (1994).

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