This colorSpec vignette is a response to the question:
Is there any program that given the lumen and the colour spectrum (relative intensity at any wavelength) of a light source and it outputs the total amount of photons per wavelength?
that was asked on a stackexchange forum, see [2]. Featured functions in this vignette are: actinometric()
and photometric()
.
library( colorSpec )
Read the SPD for a domestic LED bulb from the Lamp Spectral Power Distribution Database, see [1]. The unique ID is LED_A19_dim_domestic-use_softwhite-color_CREE-brand_6W_120V_75Lum_2700K_bernard
.
= 275:899
wave = system.file( "extdata/sources/Cree-LED.txt", package="colorSpec" )
path = readSpectra( path, wavelength=wave )
bulb par( omi=c(0,0,0,0), mai=c(0.6,0.8,0.1,0.1) )
plot( bulb, main='' )
The energy unit is unknown. But it does not matter, because we are now going to scale so that the luminous flux of the SPD is 75 lumens, as specified by the manufacturer.
= photometric( bulb ) ; luminous.flux luminous.flux
## photopic1924 scotopic1951 photopic1978 photopic2008
## Cree-LED.energy 1046.456 1193.872 1047.376 1101.321
The unit is lumen, but the first one - photopic1924
- is the appropriate official standard. Scale spectrum to have 75 lumens.
= multiply( bulb, 75/luminous.flux[1] ) ; bulb bulb
##
## colorSpec object. The organization is 'df.col'. Object size is 13120 bytes.
## the object describes a single source of light, and the quantity is 'energy' (energy of photons, which is radiometric).
## Wavelength range: 275 to 899 nm. Step size is 1 nm.
##
## 1 spectra
## 625 data points / spectrum
##
## Source Min Max LambdaMax Integral
## 1 Cree-LED.energy 0 0.001675584 605 0.2235534
# check that the luminous flux is now 75 lumens
photometric( bulb )
## photopic1924 scotopic1951 photopic1978 photopic2008
## Cree-LED.energy 75 85.56539 75.06593 78.9322
From the man page for photometric()
we know that the unit for bulb
is \(\textrm{watt} * \textrm{nm}^{-1}\).
par( omi=c(0,0,0,0), mai=c(0.6,0.95,0.1,0.1) )
= expression( 'Radiant Power' ~~~ '[watt * ' ~ nm^-1 ~ ']' )
ylab plot( bulb, main='', ylab=ylab )
The unit is currently energy-based (energy of photons, aka radiometric), but we need photon-based (number of photons, aka actinometric). From the man page for actinometric()
we know that the output unit is \(\mu \textrm{mole} * \textrm{sec}^{-1} * \textrm{nm}^{-1}\).
= actinometric( bulb )
bulb par( omi=c(0,0,0,0), mai=c(0.6,0.9,0.1,0.1) )
= expression( 'Photon Flux' ~~~ '[' ~ mu ~ 'mole * ' ~ sec^-1 ~ nm^-1 ~ ']' )
ylab plot( bulb, main='', ylab=ylab )
This plot looks similar but note that \(\lambda_{max}\) has moved slightly higher. For the total number of photons/sec from this bulb, compute the integral over \(\lambda\).
bulb
##
## colorSpec object. The organization is 'df.col'. Object size is 13120 bytes.
## the object describes a single source of light, and the quantity is 'photons' (number of photons, which is actinometric).
## Wavelength range: 275 to 899 nm. Step size is 1 nm.
##
## 1 spectra
## 625 data points / spectrum
##
## Source Min Max LambdaMax Integral
## 1 Cree-LED.energy 0 0.008500948 609 1.102559
So the total photon flux of the bulb is \(1.102559 ~ \mu \textrm{mole/sec}\). To convert this to exaphotons, multiply by \(0.602214 ~ \textrm{exaphotons/} (\mu \textrm{mole of photons} )\) to get \(0.663976 ~ \textrm{exaphotons/sec}\).
R version 4.2.0 (2022-04-22 ucrt) Platform: x86_64-w64-mingw32/x64 (64-bit) Running under: Windows 10 x64 (build 19044) Matrix products: default locale: [1] LC_COLLATE=C [2] LC_CTYPE=English_United States.utf8 [3] LC_MONETARY=English_United States.utf8 [4] LC_NUMERIC=C [5] LC_TIME=English_United States.utf8 attached base packages: [1] stats graphics grDevices utils datasets methods base other attached packages: [1] spacesRGB_1.4-0 colorSpec_1.4-0 loaded via a namespace (and not attached): [1] digest_0.6.29 R6_2.5.1 jsonlite_1.8.0 [4] magrittr_2.0.3 evaluate_0.15 highr_0.9 [7] rlang_1.0.2 stringi_1.7.6 jquerylib_0.1.4 [10] bslib_0.3.1 rmarkdown_2.14 tools_4.2.0 [13] stringr_1.4.0 xfun_0.30 yaml_2.3.5 [16] fastmap_1.1.0 compiler_4.2.0 microbenchmark_1.4.9 [19] htmltools_0.5.2 knitr_1.39 sass_0.4.1