English: Example of a sRGB-rendered blackbody color spectrum to illustrate the scaling problems energy versus quantal units. This image should be examined for scientific validity by an expert, and in the positive case replaced by a scalable (albeit larger) SVG file. This file is a response to File:Blackbody-sRGB.svg. The colors are generated via the following steps: 1. Calculate the Planck spectral energy density as a function of the wavelength for a range of temperatures. 2. Calculate the CIE XYZ 1931 tristimulus (version modified by Judd 1951 and Vos 1978, [1]) for the spectra in each temperature step:

${\displaystyle X=\int _{0}^{\infty }I(\lambda )\,{\overline {x}}(\lambda )\,d\lambda }$

${\displaystyle Y=\int _{0}^{\infty }I(\lambda )\,{\overline {y}}(\lambda )\,d\lambda }$

${\displaystyle Z=\int _{0}^{\infty }I(\lambda )\,{\overline {z}}(\lambda )\,d\lambda }$

3. convert into sRGB using the corresponding matrices (this requires some rescaling to avoid oversaturation of any color channel).

${\displaystyle {\begin{bmatrix}R_{\mathrm {linear} }\\G_{\mathrm {linear} }\\B_{\mathrm {linear} }\end{bmatrix}}={\begin{bmatrix}3.2406&-1.5372&-0.4986\\-0.9689&1.8758&0.0415\\0.0557&-0.2040&1.0570\end{bmatrix}}{\begin{bmatrix}X\\Y\\Z\end{bmatrix}}}$

The sRGB gamma correction is the done for all C = R, G, B as follows:

${\displaystyle C_{\mathrm {srgb} }={\begin{cases}12.92C_{\mathrm {linear} },&C_{\mathrm {linear} }\leq 0.0031308\\(1+a)C_{\mathrm {linear} }^{1/2.4}-a,&C_{\mathrm {linear} }>0.0031308\end{cases}}}$

• where ${\displaystyle a=0.055}$.

The result is written into an RGB palette file which can than be visualized by gnuplot. Unlike File:Blackbody-sRGB.svg the white point is near 6700 K, which is in agreement with the experience of the (midday) Sun being of a slightly yellowsh white hue.