Team:UANL Mty-Mexico/Contributions/Light Machine
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<span class="subtitle"><a name="Overview"></a>Overview of the "Light Machine"</span> | <span class="subtitle"><a name="Overview"></a>Overview of the "Light Machine"</span> | ||
Revision as of 01:32, 27 September 2011
Before starting making measurements it is necessary to understand the following concepts:
Radiometry: is the measurement of optical radiation from a physical point of view, includes the regions commonly called the ultraviolet, the visible and the infrared. Two out of many typical units encountered are Watt and Joule.
Photometry: is the measurement of visible light, which is detectable by the human eye. These measurements tend to be subjective. Typical photometric units include lumens, lux and candelas.
Photometry is almost the same as radiometry, except that radiometry includes the entire optical radiation spectrum, while photometry is limited to the visible spectrum as defined by the response of the eye.4,6
Irradiance (a.k.a. flux density) is a SI derived unit and is measured in W/m2. Irradiance is power per unit area incident from all directions in a hemisphere onto a surface that coincides with the base of that hemisphere.
Illuminance (a.k.a. luminous flux density) is another SI unit and is measured in lux. Illuminance is the total luminous flux incident on a surface per unit area. (Is the photometric equivalent of irradiance).5
**In a few words you need to measure in photometric units (lux) and convert them to radiometric units (W/m2) or measure directly in W/m2
There are two typical kinds of devices to measure light intensities once having assembled the "Light Machine":
Photometer - is an instrument for measuring Illuminance (Photometric units), then this value will be converted into Irradiance (W/m2).
**Cheaper measurement device and works properly.
Spectrometer – is an instrument for measuring Irradiance.
**Is the device that has everything but it costs much more
The intensity of light was measured in lux units, lumens per square meter using an Easy View Light Meter (Model EA31) calibrated photometer, which later were converted to power units of Watts per square meter.
The light beam was divided into zones, which underwent an average of intensities in the X, Y-axis to determine the intensity of that area. Intensity averages were calculated before each test. Samples were placed in the zone that better fits the desired intensity.
The Bandpass interference filters have a 10 nm transmission window with a peak at the emission wavelength. Precise light wavelengths and intensities are very important to achieve the desired response of photoreceptors.
How to convert to from lux to W/m2Radiometric and photometric units can be converted into each other6. Several factors, such as wavelength and mono/multicromatic light source must be take into account.
The conversion between photometric and radiometric units, for a monochromatic light source, is given by the following equation:
K(λ) = Km*V(λ)
Where:
K(λ) - Radiant flux (lm/W)
V(λ) - Photo tropic spectra luminous efficiency function. Corresponds to the sensitivity of the human eye and its function of the wavelength of light (Fig 2 Appendix B)6
Km – Scaling Factor: 683 lm/W
**Remember that this formula is effective only for monochromatic light sources (Multicromatic light sources are a bit more complicated).
**Observe measurement device modality (Photopic or Scotopic)**
Example of conversion from photometric to radiometric units for a 532 nm wavelength:
K(λ) = Km* V(λ)
K(532 nm) = 683 lm/W *V(532nm)
K(532 nm) = 683 lm/W * 0.862
K(532 nm) = 588.746 lm/W
1 W = 588.76 lm @ 532 nm
1 W/m2 = 588.79 lm/m2 ; 1 lux = 1 lm/m2
1 lux = 1/588.79 W/m2 = 1.69 mW/m2 @ 532 nm
Now calculate your respective intensities for your experiment.
Intensity/WavelengthThe light intensity on the sample depends mainly on 3 factors:
Consider the light loss during the pathway.