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Lukas Prochazka

Showing results (1-10 of 10) with videos related to

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Hearing Research|May 29, 2026
Feasibility analysis of an implantable middle ear cavity pressure microphoneLukas Prochazka, Adrian Dalbert, Christof Röösli, et al.
Micromachines|January 21, 2022
Novel Fabrication Technology for Clamped Micron-Thick Titanium Diaphragms Used for the Packaging of an Implantable MEMS Acoustic TransducerLukas Prochazka, Alexander Huber, Michael Schneider, et al.
Sensors (Basel, Switzerland)|October 19, 2019
Packaging Technology for an Implantable Inner Ear MEMS MicrophoneLukas Prochazka, Alexander Huber, Ivo Dobrev, et al.
Hearing Research|December 5, 2025
Finite-element modelling of the 3D motion of the malleus-incus complex validated with 3D laser Doppler vibrometryPieter G G Muyshondt, Lukas Prochazka, Merlin Schär, et al.
Brain Sciences|January 24, 2025
Normative Values of Brainstem Auditory-Evoked Responses in SheepKatharina Suntinger, Adrian Dalbert, Lukas Prochazka, et al.
Hearing Research|May 26, 2021
Contribution of the flexible incudo-malleal joint to middle-ear sound transmission under static pressure loadsBirthe Warnholtz, Merlin Schär, Benjamin Sackmann, et al.
Hearing Research|December 19, 2025
Methods matter: Current and future practices for middle ear mechanics laboratoriesAlexander Huber, Bastian Baselt, Ivo Dobrev, et al.
Sensors (Basel, Switzerland)|October 24, 2018
Proof of Concept for an Intracochlear Acoustic Receiver for Use in Acute Large Animal ExperimentsFlurin Pfiffner, Lukas Prochazka, Ivo Dobrev, et al.
Hearing Research|June 12, 2017
Sheep as a large animal ear model: Middle-ear ossicular velocities and intracochlear sound pressureDominik Péus, Ivo Dobrev, Lukas Prochazka, et al.
IEEE Transactions on Bio-Medical Engineering|December 29, 2016
A MEMS Condenser Microphone-Based Intracochlear Acoustic ReceiverFlurin Pfiffner, Lukas Prochazka, Dominik Peus, et al.
Pageof 1

Showing results (1-10 of 10) with videos related to

Sort By:
Pageof 1
Hearing Research|May 29, 2026
Feasibility analysis of an implantable middle ear cavity pressure microphoneLukas Prochazka, Adrian Dalbert, Christof Röösli, et al.
Micromachines|January 21, 2022
Novel Fabrication Technology for Clamped Micron-Thick Titanium Diaphragms Used for the Packaging of an Implantable MEMS Acoustic TransducerLukas Prochazka, Alexander Huber, Michael Schneider, et al.
Sensors (Basel, Switzerland)|October 19, 2019
Packaging Technology for an Implantable Inner Ear MEMS MicrophoneLukas Prochazka, Alexander Huber, Ivo Dobrev, et al.
Hearing Research|December 5, 2025
Finite-element modelling of the 3D motion of the malleus-incus complex validated with 3D laser Doppler vibrometryPieter G G Muyshondt, Lukas Prochazka, Merlin Schär, et al.
Brain Sciences|January 24, 2025
Normative Values of Brainstem Auditory-Evoked Responses in SheepKatharina Suntinger, Adrian Dalbert, Lukas Prochazka, et al.
Hearing Research|May 26, 2021
Contribution of the flexible incudo-malleal joint to middle-ear sound transmission under static pressure loadsBirthe Warnholtz, Merlin Schär, Benjamin Sackmann, et al.
Hearing Research|December 19, 2025
Methods matter: Current and future practices for middle ear mechanics laboratoriesAlexander Huber, Bastian Baselt, Ivo Dobrev, et al.
Sensors (Basel, Switzerland)|October 24, 2018
Proof of Concept for an Intracochlear Acoustic Receiver for Use in Acute Large Animal ExperimentsFlurin Pfiffner, Lukas Prochazka, Ivo Dobrev, et al.
Hearing Research|June 12, 2017
Sheep as a large animal ear model: Middle-ear ossicular velocities and intracochlear sound pressureDominik Péus, Ivo Dobrev, Lukas Prochazka, et al.
IEEE Transactions on Bio-Medical Engineering|December 29, 2016
A MEMS Condenser Microphone-Based Intracochlear Acoustic ReceiverFlurin Pfiffner, Lukas Prochazka, Dominik Peus, et al.
Pageof 1