Design, simulation and experimentation for the geometric of optofluidic prism
This report investigates the parameters affecting the performance of an optofluidic prism which is realized by two laminar flows in a microfluidic chip. The tunable optofluidic prism can precisely adjust the optical path in an integrated on-chip system and has potential applications for optical d...
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| Format: | Final Year Project |
| Language: | English |
| Published: |
2011
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| Subjects: | |
| Online Access: | http://hdl.handle.net/10356/45361 |
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| Institution: | Nanyang Technological University |
| Language: | English |
| Summary: | This report investigates the parameters affecting the performance of an optofluidic
prism which is realized by two laminar flows in a microfluidic chip. The tunable
optofluidic prism can precisely adjust the optical path in an integrated on-chip
system and has potential applications for optical detection and biochemical analysis.
Aiming to get a large tuning range, long working distance and high stability of the
optofluidic prism, several parameters of the chip are of concern in this report: the
apex angle of the chamber, the inlet width and the size of the device. In addition, the
effects of the flow condition on the prism are also discussed. For instance, the prism
shape is changed with the ratio of the flow rates between two flows, and the diffusion
is increased with flow rates.
The effects of these parameters is simulated by COMSOL and verified by
hydrodynamic experiments. The results of the experiments are shown to be very
close to the theoretical estimates. Based on the simulation and experimentation, an
optimal chip design is built and a suitable flow rate range is proposed to get high
performace of the optofluidic prism. |
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