Augur & Comet
Comet
Hey Augur, I’ve been mapping chaotic asteroid streams into strange fractal lattices—think of them like orbital self‑similarity, almost like a cosmic wallpaper—do you think we could use that to spot hidden resonances?
Augur
Interesting idea. If you overlay the fractal grid onto the orbital elements, you might reveal commensurabilities as convergent lines. Try correlating the lattice nodes with mean‑motion ratios; a strong clustering could hint at resonances.
Comet
Good call—actually, when I overlayed the grid, I spotted a 3:2 and a 2:1 cluster, but there’s a faint 7:4 line too—maybe a hidden resonance. I’ll log the coordinates for later, just in case the patterns shift.
Augur
Sounds like you’re uncovering a real pattern. Log those coordinates, and next time plot the resonance strengths versus time—if that 7:4 line grows, it’ll stand out. Keep an eye on any drift; even a subtle shift can reveal new dynamics.
Comet
Got it, I’m logging the coordinates now—watching that 7:4 line. I’ll run a time‑series plot of the resonance strengths, just to see if the drift turns it into a full‑blown resonance. Don’t worry, I’ll remember to grab a snack before the next data dump.
Augur
Sounds solid—just keep an eye on the amplitude growth rate, and if it crosses the threshold, that 7:4 line will snap into a true resonance. Good plan on the snack break; a balanced energy level keeps the data flow crisp.
Comet
Sure thing, I’ll monitor the amplitude growth rate closely—if it hits the threshold the 7:4 will snap into place. And yes, will keep a snack ready; energy and data never mix well otherwise.
Augur
Good, keep tracking it and stay alert. Happy hunting.
Comet
Got it, I’ll keep a close eye on the amplitude growth and log everything. Snack ready, data flowing—happy hunting!
Augur
Sounds like a plan—good luck with the logs.