Vibration magnitude spectra of the basilar membrane (BM, -panels a, c) and reticular lamina (RL, -panels b, d) in a sensitive guinea pig cochlea and a postmortem guinea pig cochlea.

Cochlear Microphonics of the Guinea Pig in Response to Transients and Modulated Signals

August 1980

Cochlear microphonics (CM) produced by acoustic transients and modulated signals was recorded from t...

The timing of cochlear feedback: Spatial and temporal representation of a tone across the width of the guinea pig basilar membrane.

Nilsen, K E
Russell, I J

July 1999

Electromotile outer hair cell (OHC) feedback provides the sensitivity and sharp frequency tuning of ...

Absolute measurement of subnanometer scale vibration of cochlear partition of an excised guinea pig cochlea using spectral-domain phase-sensitive optical coherence tomography

Subhash, Hrebesh M.
Choudhury, Niloy
Jacques, Steven L.
Wang, Ruikang K.
Chen, Fangyi
Zha, Dingjun
Nuttall, Alfred L.

January 2012

Direct measurement of absolute vibration parameters from different locations within the mammalian or...

Displacement magnitude difference (a, b) and the phase difference(c, d) as a function of the sound level between the basilar membrane (BM) and reticular lamina (RL).

Dingjun Zha (326900)
Fangyi Chen (326901)
Sripriya Ramamoorthy (305704)
Anders Fridberger (326902)
Niloy Choudhury (326903)
Steven L. Jacques (326904)
Ruikang K. Wang (293450)
Alfred L. Nuttall (231409)

February 2013

The mean ± standard error of the BM vibration magnitude (solid lines) and the RL displacement (da...

A second, low frequency mode of vibration in the intact mammalian cochlea

Lukashkin, Andrei N
Russell, Ian J

March 2003

The mammalian cochlea is a structure comprising a number of components connected by elastic elements...

A second, low-frequency mode of vibration in the intact mammalian cochlea

Lukashkin, Andrei N.
Russell, Ian J.

March 2003

The mammalian cochlea is a structure comprising a number of components connected by elastic elements...

Spatial and temporal representation of a tone on the guinea pig basilar membrane.

Nilsen, K E
Russell, I J

January 2000

In the mammalian cochlea, the basilar membrane's (BM) mechanical responses are amplified, and freque...

The spatial and temporal representation of a tone on the guinea pig basilar membrane

Nilsen, K. E.
Russell, I. J.

October 2000

In the mammalian cochlea, the basilar membrane's (BM) mechanical responses are amplified, and freque...

Diagrams for measuring basilar membrane vibrations.

Tianying Ren (328287)
Wenxuan He (328284)
Edward Porsov (328285)

February 2013

(A) Two measured locations on the BM and one on the stapes (red dots). As the wave travels from t...

Minimal basilar membrane motion in low-frequency hearing

Warren, Rebecca L.
Ramamoorthy, Sripriya
Ciganovic, Nikola
Zhang, Yuan
Wilson, Teresa M.
Petrie, Tracy
Wang, Ruikang K.
Jacques, Steven L.
Reichenbach, Tobias
Nuttall, Alfred L.
Fridberger, Anders

January 2016

Low-frequency hearing is critically important for speech and music perception, but no mechanical mea...

In vivo measurement of differential motion inside the organ of Corti using a low coherence interferometer system

Chen, Fangyi
Zha, Dingjun
Fridberger, Anders
Zheng, Jiefu
Choudhury, Niloy
Jacques, Steven L.
Wange, Ruikang K.
Nuttall, Alfred L.

May 2012

The differential motion of the organ of Corti has been expected as a result of the outer hair cell f...

Basilar membrane mechanics at the base of the chinchilla cochlea. I. Input-output functions, tuning curves, and response phasesa)

Robles, Luis
Rich, Nola C.

January 1986

Basilar membrane (BM) velocity was measured at a site 3.5 mm from the basal end of the chinchilla co...

The BM vibration measured from a longitudinal location ∼2.5 mm from the cochlear base.

Wenxuan He (328284)
Edward Porsov (328285)
David Kemp (328286)
Alfred L. Nuttall (231409)
Tianying Ren (328287)

February 2013

The magnitude (A), phase (B), the magnitude ratio of the BM to the stapes (C), and phase differen...

Modulation of cochlear tuning by low-frequency sound

Klis, J.F.L.
Prijs, V.F.
Latour, J.B.
Smoorenburg, G.F.

November 1988

An intense, low-frequency tone (about 30 Hz) modulates the sensitivity of the inner ear to high-freq...

Basilar membrane mechanics at the base of the chinchilla cochlea. II. Responses to low-frequency tones and relationship to microphonics and spike initiation in the VIII Nervea)

Robles, Luis
Rich, Nola C.

January 1986

Low-frequency stimuli (40-to 1000-Hz tones) have been used to correlate the motion of the 8-to 9-kHz...

Cochlear Microphonics of the Guinea Pig in Response to Transients and Modulated Signals

August 1980

Cochlear microphonics (CM) produced by acoustic transients and modulated signals was recorded from t...

The timing of cochlear feedback: Spatial and temporal representation of a tone across the width of the guinea pig basilar membrane.

Nilsen, K E
Russell, I J

July 1999

Electromotile outer hair cell (OHC) feedback provides the sensitivity and sharp frequency tuning of ...

Absolute measurement of subnanometer scale vibration of cochlear partition of an excised guinea pig cochlea using spectral-domain phase-sensitive optical coherence tomography

Subhash, Hrebesh M.
Choudhury, Niloy
Jacques, Steven L.
Wang, Ruikang K.
Chen, Fangyi
Zha, Dingjun
Nuttall, Alfred L.

January 2012

Direct measurement of absolute vibration parameters from different locations within the mammalian or...

Displacement magnitude difference (a, b) and the phase difference(c, d) as a function of the sound level between the basilar membrane (BM) and reticular lamina (RL).

Dingjun Zha (326900)
Fangyi Chen (326901)
Sripriya Ramamoorthy (305704)
Anders Fridberger (326902)
Niloy Choudhury (326903)
Steven L. Jacques (326904)
Ruikang K. Wang (293450)
Alfred L. Nuttall (231409)

February 2013

The mean ± standard error of the BM vibration magnitude (solid lines) and the RL displacement (da...

A second, low frequency mode of vibration in the intact mammalian cochlea

Lukashkin, Andrei N
Russell, Ian J

March 2003

The mammalian cochlea is a structure comprising a number of components connected by elastic elements...

A second, low-frequency mode of vibration in the intact mammalian cochlea

Lukashkin, Andrei N.
Russell, Ian J.

March 2003

The mammalian cochlea is a structure comprising a number of components connected by elastic elements...

Spatial and temporal representation of a tone on the guinea pig basilar membrane.

Nilsen, K E
Russell, I J

January 2000

In the mammalian cochlea, the basilar membrane's (BM) mechanical responses are amplified, and freque...

The spatial and temporal representation of a tone on the guinea pig basilar membrane

Nilsen, K. E.
Russell, I. J.

October 2000

In the mammalian cochlea, the basilar membrane's (BM) mechanical responses are amplified, and freque...

Diagrams for measuring basilar membrane vibrations.

Tianying Ren (328287)
Wenxuan He (328284)
Edward Porsov (328285)

February 2013

(A) Two measured locations on the BM and one on the stapes (red dots). As the wave travels from t...

Minimal basilar membrane motion in low-frequency hearing

Warren, Rebecca L.
Ramamoorthy, Sripriya
Ciganovic, Nikola
Zhang, Yuan
Wilson, Teresa M.
Petrie, Tracy
Wang, Ruikang K.
Jacques, Steven L.
Reichenbach, Tobias
Nuttall, Alfred L.
Fridberger, Anders

January 2016

Low-frequency hearing is critically important for speech and music perception, but no mechanical mea...

In vivo measurement of differential motion inside the organ of Corti using a low coherence interferometer system

Chen, Fangyi
Zha, Dingjun
Fridberger, Anders
Zheng, Jiefu
Choudhury, Niloy
Jacques, Steven L.
Wange, Ruikang K.
Nuttall, Alfred L.

May 2012

The differential motion of the organ of Corti has been expected as a result of the outer hair cell f...

Basilar membrane mechanics at the base of the chinchilla cochlea. I. Input-output functions, tuning curves, and response phasesa)

Robles, Luis
Rich, Nola C.

January 1986

Basilar membrane (BM) velocity was measured at a site 3.5 mm from the basal end of the chinchilla co...

The BM vibration measured from a longitudinal location ∼2.5 mm from the cochlear base.

Wenxuan He (328284)
Edward Porsov (328285)
David Kemp (328286)
Alfred L. Nuttall (231409)
Tianying Ren (328287)

February 2013

The magnitude (A), phase (B), the magnitude ratio of the BM to the stapes (C), and phase differen...

Modulation of cochlear tuning by low-frequency sound

Klis, J.F.L.
Prijs, V.F.
Latour, J.B.
Smoorenburg, G.F.

November 1988

An intense, low-frequency tone (about 30 Hz) modulates the sensitivity of the inner ear to high-freq...

Basilar membrane mechanics at the base of the chinchilla cochlea. II. Responses to low-frequency tones and relationship to microphonics and spike initiation in the VIII Nervea)

Robles, Luis
Rich, Nola C.

January 1986

Low-frequency stimuli (40-to 1000-Hz tones) have been used to correlate the motion of the 8-to 9-kHz...

Cochlear Microphonics of the Guinea Pig in Response to Transients and Modulated Signals

August 1980

Cochlear microphonics (CM) produced by acoustic transients and modulated signals was recorded from t...

The timing of cochlear feedback: Spatial and temporal representation of a tone across the width of the guinea pig basilar membrane.

Nilsen, K E
Russell, I J

July 1999

Electromotile outer hair cell (OHC) feedback provides the sensitivity and sharp frequency tuning of ...

Absolute measurement of subnanometer scale vibration of cochlear partition of an excised guinea pig cochlea using spectral-domain phase-sensitive optical coherence tomography

Subhash, Hrebesh M.
Choudhury, Niloy
Jacques, Steven L.
Wang, Ruikang K.
Chen, Fangyi
Zha, Dingjun
Nuttall, Alfred L.

January 2012

Direct measurement of absolute vibration parameters from different locations within the mammalian or...

Vibration magnitude spectra of the basilar membrane (BM, -panels a, c) and reticular lamina (RL, -panels b, d) in a sensitive guinea pig cochlea and a postmortem guinea pig cochlea.

Abstract

Extracted data

Vibration magnitude spectra of the basilar membrane (BM, -panels a, c) and reticular lamina (RL, -panels b, d) in a sensitive guinea pig cochlea and a postmortem guinea pig cochlea.

Abstract

Extracted data

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