Stress-modulated tilt actuator for tunable optical prisms

•Thermo-mechanical actuation can be used for a ±90° rotation of MEMS.•Aluminum nitride offers high displacement and driving force simultaneously.•Its geometry and residual stress define static and dynamic actuator properties.•Actuation enables droplet deformation and a prism with a tunable wedge ang...

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Published inSensors and actuators. A. Physical. Vol. 266; pp. 328 - 337
Main Authors Leopold, S., Paetz, D., Sinzinger, S., Hoffmann, M.
Format Journal Article
LanguageEnglish
Published Lausanne Elsevier B.V 15.10.2017
Elsevier BV
Subjects
Actuation
Actuator
Aluminum
Aluminum nitride
Beams (radiation)
Deformation
Field of view
Fluids
Mathematical models
Mechanical properties
Micro-optics
Nitrides
Prisms
Stresses
Thermo-mechanical
Tunable
Tunable
Micro-optics
Thermo-mechanical
Aluminum nitride
Actuator
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Abstract •Thermo-mechanical actuation can be used for a ±90° rotation of MEMS.•Aluminum nitride offers high displacement and driving force simultaneously.•Its geometry and residual stress define static and dynamic actuator properties.•Actuation enables droplet deformation and a prism with a tunable wedge angle. A tunable optical prism MOEMS based on the deformation of a liquid droplet is presented. An aluminum-nitride membrane is tilted by a novel type of thermo-mechanical actuator. The actuation principle is based on a thermo-mechanical modulation of the intrinsic stress in aluminum-nitride beams. Based on an analytical model, the key parameters of the actuator are optimized. Furthermore, the influence of the intrinsic stress on the actuator properties is investigated. These dependencies and the model are verified by mechanical characterization of samples. Operation in air and with ambient fluid has been confirmed. An image shift of 30 mm is found in a microscopic setup which corresponds to 19 % of the field of view.
AbstractList A tunable optical prism MOEMS based on the deformation of a liquid droplet is presented. An aluminum-nitride membrane is tilted by a novel type of thermo-mechanical actuator. The actuation principle is based on a thermo-mechanical modulation of the intrinsic stress in aluminum-nitride beams. Based on an analytical model, the key parameters of the actuator are optimized. Furthermore, the influence of the intrinsic stress on the actuator properties is investigated. These dependencies and the model are verified by mechanical characterization of samples. Operation in air and with ambient fluid has been confirmed. An image shift of 30 mm is found in a microscopic setup which corresponds to 19 % of the field of view.
•Thermo-mechanical actuation can be used for a ±90° rotation of MEMS.•Aluminum nitride offers high displacement and driving force simultaneously.•Its geometry and residual stress define static and dynamic actuator properties.•Actuation enables droplet deformation and a prism with a tunable wedge angle. A tunable optical prism MOEMS based on the deformation of a liquid droplet is presented. An aluminum-nitride membrane is tilted by a novel type of thermo-mechanical actuator. The actuation principle is based on a thermo-mechanical modulation of the intrinsic stress in aluminum-nitride beams. Based on an analytical model, the key parameters of the actuator are optimized. Furthermore, the influence of the intrinsic stress on the actuator properties is investigated. These dependencies and the model are verified by mechanical characterization of samples. Operation in air and with ambient fluid has been confirmed. An image shift of 30 mm is found in a microscopic setup which corresponds to 19 % of the field of view.
Author Sinzinger, S.
Hoffmann, M.
Leopold, S.
Paetz, D.
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Keywords Tunable
Micro-optics
Thermo-mechanical
Aluminum nitride
Actuator
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SSID ssj0003377
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Snippet •Thermo-mechanical actuation can be used for a ±90° rotation of MEMS.•Aluminum nitride offers high displacement and driving force simultaneously.•Its geometry...
A tunable optical prism MOEMS based on the deformation of a liquid droplet is presented. An aluminum-nitride membrane is tilted by a novel type of...
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SubjectTerms Actuation
Actuator
Aluminum
Aluminum nitride
Beams (radiation)
Deformation
Field of view
Fluids
Mathematical models
Mechanical properties
Micro-optics
Nitrides
Prisms
Stresses
Thermo-mechanical
Tunable
Title Stress-modulated tilt actuator for tunable optical prisms
URI https://dx.doi.org/10.1016/j.sna.2017.09.021
https://www.proquest.com/docview/1977224479
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