Team:SJTU-BioX-Shanghai/Modeling/Light sensor characteristic
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<!----------------------------------------------------从这里开始写wiki---------------------------------> | <!----------------------------------------------------从这里开始写wiki---------------------------------> | ||
=Light Sensor Characteristic= | =Light Sensor Characteristic= | ||
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=Introduction= | =Introduction= | ||
- | Light sensor are light sensitive proteins, which are able to perform specific actions based on light induction. They typically make use of photopigments , which are structurally changed or reduced as reaction to excitation by photons. Some light sensor can be activated and deactivated by light; others follow an exponential decay to a ground state after excitation. The rate constants for this reactions can be computed from the number of induction events. | + | Light sensor are light sensitive proteins, which are able to perform specific actions based on light induction. They typically make use of photopigments , which are structurally changed or reduced as reaction to excitation by photons. Some light sensor can be activated and deactivated by light; others follow an exponential decay to a ground state after excitation. The rate constants for this reactions can be computed from the number of induction events. the number of photons causing such an event. |
- | We have chosed three light sensors: red (Cph8), green (Ccas), | + | We have chosed three light sensors: red (Cph8), green (Ccas), bule (YF1). In oder to design and make out a device to transform the computer signal to light signal which can make our light sensor work we must choose the right light source. |
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=Reaction Rate Constants= | =Reaction Rate Constants= | ||
- | For the convenience of determining the light sensor reaction rate constants, | + | For the convenience of determining the light sensor reaction rate constants, We make the hypothesis that all of light sensing process are the first order reaction. Reaction rate constants [s-1] for our ODE model can be computed as integral over all events at all wavelengths, the integral of the product of the photoconversion cross section σλ times the photon flux Nλ; In our case approximated numerically. |
- | + | [[image:Rateconstant.png]] | |
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=Optical Property Of Light Sensor= | =Optical Property Of Light Sensor= | ||
- | [[File: | + | [[File:Light_blog.JPG]] |
=Measuring Result= | =Measuring Result= | ||
- | We measure more than a dozen | + | We measure more than a dozen defferent LED light source with DIY measuring device to get the relationship between light intensity and wavelength. By comparing the measuring data, we choose the best light source for our device. |
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<br>'''measuring process''' | <br>'''measuring process''' | ||
- | <br>[[ | + | <br>[[image:P1030195.JPG]][[image:P1030205.JPG]] |
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<br>'''Relationgship between wavecrest and light intensity''' | <br>'''Relationgship between wavecrest and light intensity''' | ||
- | <br>[[ | + | <br>[[image:11Honf.jpg|700px]] |
- | <br>[[ | + | <br>[[image:11Lv.jpg|700px]] |
- | < | + | <!----------------------------------------------------到这里结束---------------------------------------> |
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Latest revision as of 03:56, 29 October 2013