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In an open-loop system, such as a basic thermostat, the poles of the transfer function influence the system's response but do not determine its stability. However, when feedback is introduced to form a closed-loop system, such as an advanced thermostat that adjusts heating based on room temperature, stability is governed by the new poles of the closed-loop transfer function.
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Related Experiment Video

Updated: Jan 26, 2026

A Fabrication and Measurement Method for a Flexible Ferroelectric Element Based on Van Der Waals Heteroepitaxy
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A Fabrication and Measurement Method for a Flexible Ferroelectric Element Based on Van Der Waals Heteroepitaxy

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Photo-Controlled Ferroelectric-Based Nanoactuators.

Fernando Rubio-Marcos1, David Páez-Margarit2, Diego A Ochoa2

  • 1Department of Electroceramics , Instituto de Cerámica y Vidrio (CSIC) , Madrid 28049 , Spain.

ACS Applied Materials & Interfaces
|April 3, 2019
PubMed
Summary

Researchers demonstrate manipulating ferroelectric crystal strain with sub-bandgap light. This enables stable, macroscopic dimensional changes for advanced photocontrolled ferroelectric devices and nano-optomechanical systems.

Keywords:
barium titanateferroelectric crystalslight-induced phenomenaphotoferroelectricsphotostrain

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Area of Science:

  • Materials Science
  • Condensed Matter Physics
  • Optoelectronics

Background:

  • Nano-optomechanical systems (NOMS) are crucial for future optoelectronics and nanomanipulation.
  • Developing new actuation principles for NOMS is an active research area.

Purpose of the Study:

  • To investigate the manipulation of ferroelectric crystal strain using sub-bandgap illumination.
  • To explore the potential for macroscopic, stable, and reproducible dimensional changes in ferroelectric materials.

Main Methods:

  • Illumination of ferroelectric crystals with photons having energy below the material's bandgap.
  • Observation and characterization of photoinduced strain and dimensional changes.
  • Analysis of the cooperative nature of the photoresponse phenomenon.

Main Results:

  • Achieved macroscopic, stable, and reproducible dimensional changes in ferroelectric crystals via sub-bandgap illumination.
  • Demonstrated that photoinduced strain can extend to the entire material, even without direct light incidence on the actuation area.
  • Confirmed the cooperative nature of the photoresponse is responsible for the extended strain effect.

Conclusions:

  • Sub-bandgap illumination offers a feasible principle for actuating ferroelectric crystals.
  • The findings pave the way for next-generation high-efficiency photocontrolled ferroelectric devices.
  • This work contributes to the advancement of nano-optomechanical systems and nanomanipulation techniques.