Whimsy and Snippets Are How Photon-DSP Works

Where should they be on the spectral range from 200 nm to 1500 nm? Here? There? and x number of possible There placements. So the variations run to the quadrillions, trillions of quadrillions. No time to try out even 1% of them using a parallel process quantum computer. Whimsy is too wild to track down and de-cipher. There’s no “code” to break. Outguessing my whimsy takes more time than anybody has. You will know in a day what Ln+3 ions I used. In a week you will know their molar concentrations on the nanoparticles in which they are seated. In a month you will know how I seated the Ln+3 ions on the Zirconate nanoparticles (annealing, scintering, vapor deposition, pressure, vacuum methods, chemical adhesion, electrostatic deposition, etc). But none of that will help. You need the snippets, and they are the key, and they are based on my own human whimsy. Not just arbitrary, but randomly arbitrary, and with no rules for the playful game. A code that does not exist cannot be de-coded. Since I know my snippets, they are used when my lab measures the secondary photon returns from my seals. The snippets edited spectral range is recorded in a numbered file on a chip, in my authentication machine. The item being authenticated has that file number on it inside a QR square. My machine knows what to look for. It does the comparison pretty fast, and says OK or not-OK fast enough (under 1 second). I do bank bills and ID cards, but also high fashion items, and boxes of parts (like for jet planes), and DNA samples, and documents like depository receipts, or rare signatures, or evidence that is kept “under seal” (only specified persons ever get to read it).