Relative irradiance experiments – Ocean Optics HR2000CG-UV-NIR User Manual

Sample Experiments

HR2000 High-Resolution Fiber Optic Spectrometer

26

Relative Irradiance Experiments

Irradiance is the amount of energy at each wavelength emitted from a radiant sample. In relative terms, it is a
comparison of the fraction of energy the sample emits and the energy the sampling system collects from a lamp
with a blackbody energy distribution (normalized to 1 at the energy maximum). OOIBase32 calculates relative
irradiance with the following equation…

S

λ

- D

λ

I

λ

= B

λ

(

R

λ

- D

λ

)

…where B

λ

is the relative energy of the reference (calculated from the color temperature) at wavelength

λ, S

λ

is

the sample intensity at wavelength

λ, D

λ

is the dark intensity at wavelength

λ, R

λ

is the reference intensity at

wavelength

λ.

Figure 6-4: Typical Relative Irradiance Setup. A light source with a known color temperature (such as the LS-1 or

LS-1-LL - lower right) is used to take a reference spectrum. The light to measure (lower left) is accumulated through a

CC-3 Cosine Corrector (or FOIS integrating sphere) into an input fiber, which carries the light information to the

spectrometer (upper right). The spectrometer then transmits the information to the PC (upper left), which compares the

measured spectra against the reference spectrum, thus removing wavelength-dependent instrument response from the

measurement.

Common applications include characterizing the light output of LEDs, incandescent lamps, and other radiant
energy sources such as sunlight. Relative irradiance measurements also include fluorescence measurements,
which measure the energy given off by materials that have been excited by light at shorter wavelengths.