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Digital Micromirror Devices for rapid fabrication of large-area laser- ablated multicolour-grating patterns B. Mills, D. J. Heath, M. Feinaeugle, R. W.

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Presentation on theme: "Digital Micromirror Devices for rapid fabrication of large-area laser- ablated multicolour-grating patterns B. Mills, D. J. Heath, M. Feinaeugle, R. W."— Presentation transcript:

1 Digital Micromirror Devices for rapid fabrication of large-area laser- ablated multicolour-grating patterns B. Mills, D. J. Heath, M. Feinaeugle, R. W. Eason Optoelectronics Research Centre, University of Southampton, UK

2 2 Outline Introduction to digital mirror devices (DMD) Using a DMD for laser-ablation Fabrication of multi-colour surfaces Replication of a Morpho butterfly Conclusions

3 3 Digital Mirror Device (DMD) Used in majority of projectors Array of individually controlled ~10μm width mirrors Can be used as an intensity spatial light modulator (SLM) Fast switching speed (>30kHz) Schematic of a section of the digital mirror device (actual model used: Texas Instruments DLP3000, 608 x 684 mirrors)

4 4 Energy density on sample is 1-50J/cm 2 Energy density on DMD is ~1mJ/cm 2 Well below damage threshold of DMD due to magnification Experimental schematic

5 Sample fabrication schematic 5 Each laser pulse is shaped to a different pattern The sample is continuously translated input laser pulses  array of mirrors, showing the pattern (the DMD) focussing objective spatially-shaped laser pulses  sample is continuously translated sample movement direction 

6 Process repeated to make 2D arrays 6 direction of  stage movement After each line of letters, we start again on an adjacent line, to build up 2D arrays 50µm 10µm

7 Not letters but gratings, where each grating can have a different period 7 Each grating is 30 by 30µm and will diffract different colours of light to different angles We build up an array of 10,000s, over cm-squared regions Result is that the material surface appears to be coloured 10µm 50µm

8 Security and marking applications 8 1mm 3mm

9 Replication of a Morpho butterfly 9 Nature Fabricated SEM image Photograph 1µm 10µm 2mm

10 Conclusions Fabrication of cm-squared regions in 15 minutes (with faster stages  less than 1 minute) Diffraction-limited writing resolution Can be used to make a surface appear to be multi-coloured Applications in security / marking This work was supported under EPSRC (grant number EP/L022230/1) 10

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