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This graph for the Aquaticlife 650 (not a bad bulb either) shows that while the peak on an SPD may not be the highest, it can still be the dominant output color. The red spike in this graph is not very high at all, but it is wide and comprises the highest percentage of output. Sure the green peak is highest, and the waves at that particular freq are prob more intense than the red, but the overall output is much smaller and will not come into play as much as the Red. This bulb actually has 40% output in the orange red 600nm+ range
Just pulling numbers out of my ass to show example.
If a narrow green spike comprises 5 units of energy at 552nm, 70 at 553nm, 300@554nm, 600@555nm, 300@556nm, 70@557nm, then 5 again at 558nm, you can add up the energy output at each specific wavelength to get an approx energy output in that range, this example would be 5+70+300+600+300+70+5 =1350 total units of energy in that green spike.
If a red spike comprises 5 at 600nm,
10@601,
20@602, 30@603nm, 40@604nm etc etc etc up to a peak that only reaches maybe 300 max (half the green spike) @630nm, then back to 5@660nm, This wide peak would only show half as strong on the graph, but would comprises much more total output in this range. 5+10+20+30+40+50+60+70 on and on to 300 at 630nm, then the peak dropping off back down to 5 at 660nm, would total roughly 9310 total units of energy output overall throughout that spike.
If you're going strictly by the highest number reached in a peak, then yes that one specific wavelength would have more power than the other peak, but the peaks are wide and comprise many wavelengths within them
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. Be careful when using this assumption with narrowband (‘monochromatic’