Micrometer Precision of Miniature Pattern with a Shape Memory Alloy Stage.

Bouali Hichem; Belkacemi Yacine; Bouaziz Mohamed; Fellah Mamoun

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Micrometer Precision of Miniature Pattern with a Shape Memory Alloy Stage.

EasyChair Preprint no. 9403

2 pages•Date: December 3, 2022

Bouali Hichem, Belkacemi Yacine, Bouaziz Mohamed and Mamoun Fellah

Abstract

In most cases, the stage with piezoelectric actuators, in particular the SAM stage, represents an interesting alternative to the classic manual stage. Because it has the advantages of high precision, a significant possibility of miniaturization, and above all the simplicity and ease of development of these contactless sensors. This article demonstrates that, with proper design, we can make and develop a SAM stage able to track and manipulate a high-precision coded pattern. This pattern is used to measure and track the movement of a miniature target placed below a vision system (optical microscope and camera). This technique is particularly interesting when a contactless sensor is necessary, and especially to avoid the disturbance of miniatures targets that have a high sensitivity to external excitations.

Keyphrases: coded pattern, Command, Joule effect, Peltier effect, SAM stage, Subpexilic

Links:

https://easychair.org/publications/preprint/5V4l

BibTeX entry

BibTeX does not have the right entry for preprints. This is a hack for producing the correct reference:

@Booklet{EasyChair:9403,
  author = {Bouali Hichem and Belkacemi Yacine and Bouaziz Mohamed and Fellah Mamoun},
  title = {Micrometer Precision of Miniature Pattern with a Shape Memory Alloy Stage.},
  howpublished = {EasyChair Preprint no. 9403},

  year = {EasyChair, 2022}}

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