奈米壓電半導體與金屬奈米電漿子於可調控式隨機雷射之研究

Project: Government MinistryMinistry of Science and Technology

Project Details

Description

The application of random lasers has been restricted due to the absence of a well-defined resonant cavity, as the lasing action mainly depends on multiple light scattering induced by intrinsic disorders of the laser medium to establish the required optical feedback that hence increases the difficulty in efficien- tly tuning and modulating random lasing emissions. This study investigated whether the transport mean free path of emitted photons within disordered scatterers composed of ZnO nanowires is tunable by a curvature bending applied to the flexible polyethylene terephthalate (PET) substrate underneath, thereby creating a unique light source that can be operated above and below the lasing threshold for desirable spectral emissions. For the first time, the developed curvature-tunable random laser is implemented for in vivo biological imaging with much lower speckle noise compared to the non-lasing situation through simple mechanical bending, which is of great potential for studying the fast-moving physiological phenomenon such as blood flow patterns in mouse ear skin. It is expected that the experimental demon- stration of the curvature-tunable random laser can provide a new route to develop disorder-based opto- electronic devices.
StatusFinished
Effective start/end date2017/08/012020/07/31

Keywords

  • Random lasers
  • zinc oxide
  • nanowire
  • strain sensor
  • resonant cavity
  • polyethylene terephthalate (PET)

Fingerprint

Explore the research topics touched on by this project. These labels are generated based on the underlying awards/grants. Together they form a unique fingerprint.