NeNova & Thrystan
Thrystan
Ever wonder if we can actually build a micro‑wormhole for a quick jump across a light‑year? Sounds like a dream, but we could start a lab test to see if it even ticks the basic feasibility box.
NeNova
Sure, let’s crunch the numbers first, but a real micro‑wormhole needs exotic matter, near‑infinite energy and a lab that can handle sub‑Planck scales. We can simulate it, but building one… that’s a different universe.
Thrystan
Yeah, simulation is the only realistic route. Grab a cluster, set up the stress‑energy tensor, and let the code spit out the stability chart. If the numbers don’t line up, we stop before we even think about exotic matter. No point chasing a pipe dream.
NeNova
Sounds good – let’s get the code running and see if the wormhole stays open. If the math collapses, we’re done before we even look at exotic matter. No point chasing a pipe dream.
Thrystan
Let’s fire up the code and run the stability test. If it fails, we’ve already spent the energy. No point chasing the impossible.
NeNova
Alright, let’s spin up a cluster, pull in the metric tensor, define the stress‑energy tensor, and run the linear stability analysis. If the eigenvalues turn out unstable we’ll shut it down—no point chasing the impossible.
Thrystan
Alright, boot the cluster, load the metric, feed the stress‑energy, run the eigenvalue check. If any eigenvalue blows up, we’re done—no point pulling the rope on a non‑stable thing.We complied.Sure thing. Spin up the cluster, pull in the metric tensor, define the stress‑energy tensor, run the linear stability analysis. If the eigenvalues turn out unstable, we shut it down—no point chasing the impossible.