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Hyperlens Layer Designer

This resource has a 5.1 Ranking

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Usage Stats
Overall Period: Updated 21 Nov, 2008
Users: 13
Jobs: 51
Avg. exec. time: 0 secs
Reviews & Citations
Google/IEEE
Avg. Review: 0.0 out of 5 stars
Citations: 0

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Available Versions

  • 1.0 (published)

Supporting Documents

Version 1.0 - published on 28 Jul, 2008
Contributor(s) Matt Swanson, Alexander V. Kildishev, Xingjie Ni
Purdue University, West Lafayette
At a glance Design a hyperlens using concentric cylindrical layers of various materials
Description Recent research has been done in regards to optically imaging using metamaterials. One such project is the hyperlens, which aims to overcome the classical diffraction limit and project a magnified image into the far field. The potential applications for this device range from nanolithography to bioimaging.

The Hyperlens Layer Designer tool is intended to be used in conjunction with the Hyperlens Solver tool to aid in the design and simulation of a hyperlens. The Hyperlens Layer Designer allows users to quickly and easily create hyperlens designs and save them for later use in the Hyperlnes Solver. By using these two tools, users can experiment with different designs and evaluate performance to find the optimal layout before beginning fabrication.

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The Hyperlens Layer Designer tool was developed using Python and the TkInter module, a thin object-oriented layer on top of Tcl/Tk

http://www.python.org/
http://wiki.python.org/moin/TkInter

Credits
  • Matt Swanson ... SURF Fellow, software concept and GUI development
  • Xingjie Ni ... Graduate mentor, concept development, PhotonicsDB integration
  • Alexander Kildishev ... Advising professor, concept development

    • Acknowledgements

  • Michael McLennan, Derrick Kearney, Steven Clark ... nanoHUB training and support
Sponsored by

Summer Undergraduate Research Fellowship (SURF), Purdue University

References

1. Z. Jacob, L. V. Alekseyev, and E. Narimanov, “Optical Hyperlens: Far-field imaging beyond the diffraction limit,” Opt. Express 14, 8247-8256 (2006).
2. E. E. Narimanov and V. M. Shalaev, “Beyond diffraction,” Nature 447, 226-227 (2007).
3. Z. Jacob, L. V. Alekseyev, and E. Narimanov, "Semiclassical theory of the hyperlens," J. Opt. Soc. Am. A 24, A52-A59 (2007).
4. Z. Liu, H. Lee, Y. Xiong, C. Sun and X. Zhang, “Far-Field Optical Hyperlens Magnifying Sub-Diffraction-Limited Objects,” Science 315, 1686 (2007).
5. A. V. Kildishev and E. E. Narimanov, “Impedance-matched hyperlens,” Opt. Lett. 32, 3432-3434 (2007).
6. A. V. Kildishev and V. M. Shalaev, "Engineering space for light via transformation optics," Opt. Lett. 33, 43-45 (2008).

Cite this work

If you reference this work in a publication, please cite as follows:

  • Swanson, Matt; Kildishev, Alexander V.; Ni, Xingjie (2008), "Hyperlens Layer Designer," doi: 10254/nanohub-r4703.1.

    BibTex | EndNote

In addition, we would appreciate it if you would add the following acknowledgment to your publication:

  • Simulation services for results presented here were provided by the Network for Computational Nanotechnology (NCN) at nanoHUB.org
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