I’m sure you are familiar with the concept of smoothing, and this curve is clearly smoothed.
So's the halogen curve. A true representation of halogen's spectral output is pretty spiky as well.
Almost all white LEDs work with a combination of two or three phosphors pumped by a UV or other LED underneath.
The research during the last twenty years or so has concentrated on finding (sometimes digging out from research libs) phosphors that work together to have a better spectral response to the human eye.
Yes-- Philip's L-prize LED uses, if I recall, red and blue LED's to excite the phospor. But you're repeating yourself.
Fuel cell research is a classic example of that.
It has been five years into the future since the fifties. With numerous “breakthroughs” through the decades.
In GM's fuel-cell "ElectroVan" in 1966, the fuel cell took up most of the cargo room. Then they shrank it enough to fit on the Apollo modules. By 2000, it could fit in the underbody of the Precept, had 3 times the range, and had efficiency down to 1kW / kg. Now they're reasonably practical, if you can find a hydrogen fueling station. Along the way, they've reduced the need for platinum from "massive" to "negligible".
The progress has been, for the last two decades, more "evolution" than "revolution", although work is being done on non-platinum based catalysts, and that
would be a major breakthrough. As recently as a few months ago, promising research has been published.
What that has to do with illuminating negatives... *shrug*
Sure you’ll be able to “get away” with it.
You’ll get quite acceptable results initially, without nothing to compare against.
And you’ll have trouble with more “pathological” photos than you should.
Hey! Sounds like the history of color printing to me.
Question is: Is “acceptable” good enough or are you looking for as good as you can do within reason?
So-- care to express an opinion on the sample photos, or would you merely like to continue down the hypothetical path of massless strings and frictionless pulleys?
How can the DSLR photo be improved? What, specifically, is wrong with it?
PS. Using a spectrometer, even a simple one, well, takes preparation and care.
You need to narrow the source to a pinpoint or very thin line.
And your eyes while handy and available, are not ideal as sensors.
They are not that sensitive and tend to compensate and “cheat”.
Now you're just being tiresome-- not to mention being disingenuous, since even a cheap spectrometer already has the aforementioned slit to narrow the light source. Otherwise, it's just a prism or diffraction grating.
Further, while the human eye may not be precisely calibrated, it's certainly sensitive enough for this purpose.
I'm sorry you disagree with my methodology, my testing, and me in particular, for all I know... But I'm not the first person to go down this path, and I won't be the last, and in spite of your assertion that it's impossible to get acceptable results, many people are in fact, getting acceptable results. You remind me of the people in the early 20th century who proved scientifically that if you drove over 30 mph in an open car, you wouldn't be able to breathe, and would suffocate.
Personally, my goal is to get comparable image quality to my Epson scanner with higher detail. I would say right now, I'm within a few percentage points of the Epson in terms of quality, and massively ahead in detail-- and the image quality is close enough that it's almost certainly down to personal taste.
