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* [[Open source 3D printers: an appropriate technology for building low cost optics labs for the developing communities]]
* [[Open source 3D printers: an appropriate technology for building low cost optics labs for the developing communities]]
* [[3-D printable open source dual axis gimbal system for optoelectronic measurements]]
* [[3-D printable open source dual axis gimbal system for optoelectronic measurements]]
* [[Approaches to Open Source 3-D Printable Probe Positioners and Micromanipulators for Probe Stations]]


==News Coverage==
==News Coverage==

Revision as of 11:54, 21 September 2018

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Source: Zhang C, Anzalone NC, Faria RP, Pearce JM (2013) Open-Source 3D-Printable Optics Equipment. PLoS ONE 8(3): e59840. doi:10.1371/journal.pone.0059840 open access

Abstract

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Just as the power of the open-source design paradigm has driven down the cost of software to the point that it is accessible to most people, the rise of open-source hardware is poised to drive down the cost of doing experimental science to expand access to everyone. To assist in this aim, this paper introduces a library of open-source 3-D-printable optics components. This library operates as a flexible, low-cost public-domain tool set for developing both research and teaching optics hardware. First, the use of parametric open-source designs using an open-source computer aided design package is described to customize the optics hardware for any application. Second, details are provided on the use of open-source 3-D printers (additive layer manufacturing) to fabricate the primary mechanical components, which are then combined to construct complex optics-related devices. Third, the use of the open-source electronics prototyping platform are illustrated as control for optical experimental apparatuses. This study demonstrates an open-source optical library, which significantly reduces the costs associated with much optical equipment, while also enabling relatively easily adapted customizable designs. The cost reductions in general are over 97%, with some components representing only 1% of the current commercial investment for optical products of similar function. The results of this study make its clear that this method of scientific hardware development enables a much broader audience to participate in optical experimentation both as research and teaching platforms than previous proprietary methods.

Results

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See Also

News Coverage

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