A completed spectrometer This spectrometer is made with cardboard inserts inside an old VHS box, and uses a USB webcam. This allows the user to view the spectrum in real-time, rather than taking a photo and analyzing it later. Please get in touch with jeff@publiclaboratory.org if you'd like to help work on this! This hardware design will soon be released under the CERN Open Hardware License 1.1. A draft agreement is under development here: http://publiclaboratory.org/wiki/ohl-agreement and should be complete in a few days.
Buy HD Video Spectrometer kit
##Specs## (these are approximated but we should soon post a page with calibration information) * around 400-900nm, maybe wider * 5-10nm spectral resolution * 20-30 samples per second * around $30 in materials, drops to around $10 if you use a non-HD webcam * approx. 1 hour construction time * Mac and Linux compatible, should work on Windows but untested * open-source software at: http://github.com/jywarren/spectral-workbench ##Goals## Our early goals are to: * Identify a contaminant in a sample, like Polycyclic Aromatic Hydrocarbons -- like [naphthalene, anthracene and tetracene](http://publiclaboratory.org/notes/warren/8-5-2011/uv-visible-spectral-features-benzine-and-some-pahs). Tetracene has absorption bands well into the visible range. * Identify a plant species by its spectrum. (see [this helpful paper by Zomer et al](https://publiclab.org/sites/default/files/Zomer_2009.PDF)) Or perhaps a mineral, using the [ASTER spectral library](http://archive.publiclaboratory.org/aster-spectral-library/) * Try to identify something in a smokestack plume, like a refinery plume ##How to build your own## ###Software### Download the client software (Linux/Mac, may work in Windows with a little work) here: http://github.com/jywarren/spectral-workbench ###Hardware### Instructions on building your spectrometer can be found at: ###[Video Spectrometer Construction »](/wiki/video-spectrometer-construction)### ##Using your spectrometer## You'll need to calibrate it first; the best way is probably to use a known spectrum from a compact fluorescent light bulb, and to compare it to your spectrum like this: http://publiclaboratory.org/notes/warren/7-28-2011/live-spectral-analysis-code-good-resolution We're starting to compile a listing of spectral databases here: http://publiclaboratory.org/wiki/spectral-libraries _more soon_ ##To do## * find a way to find a spectrum similar to a recorded sample spectrum, from a library of spectra like the [ASTER library](http://archive.publiclaboratory.org/aster-spectral-library/) or the [HITRAN library](http://archive.publiclaboratory.org/hitran-spectral-library/) * create a website to upload spectra to, -- even better, allow them to be sorted into "sets", and allow comments on each spectrum by other users. See [the source code](http://github.com/jywarren/spectral-workbench) for where we've started work * Investigate the HD camera's spectral response * Explore how to combine or select the channels for measurements you want to make * Implement a technique to do that in the [software](http://publiclaboratory.org/wiki/spectral-workbench) - Generalize the methods for others using different cameras (maybe using some kind of calibration parameters that we measure and distribute in the code, or have experimenteers determine the values of the parameters themselves using a sun measurement and some code in the software. ##Spectrum gallery## Some spectra captured with one of these devices. If you begin taking spectra, start uploading them to Flickr with the tag #diyspectrometer -- we'll soon have a place to automatically upload them, but this will work for now. An example spectrum (one of our best yet!): Full sunlight spectrum, visible+near infrared A Philips "warm" compact fluorescent bulb: Philips compact fluorescent bulb spectrum Spectrum of sunlight through water from a puddle at the Gowanus Canal salt lot: Spectrum of sunlight through water from a puddle at the Gowanus Canal salt lot