We're writing a screenplay plan for a science fiction film "Mission Oflameron" using AI queries. We're using AI for technical analysis of a possible screenplay.
As AI develops, specialists will be found who will write a real screenplay based on these plans. Then, these specialists will generate and edit the action film "Mission Oflameron" in AI. https://github.com/vallshmeleff/ai-prompts-for-screenplay-plan/tree/main   
Currently, there are two active characters: scientist Jett and assistant Steeve. They are being "played" by Central Command (a government supercomputer).
Plot: Jett discovers information about an Ancient Virtual Consciousness that successfully survived the Big Bang (the birth of the Universe), possesses absolute knowledge, and has found the Transition Points to and from the Virtual World.
Central Command suspects this and wants to control everything.

Scientific and technical justification for the scenario

Episode Num xxxxxx28


"Mission Oflameron"

Prompt

Let's get "scientific" and fantasize.
Inside a star, under enormous pressure and temperature, a kind of "matter" consisting of quarks could exist, and gluons could function as a "computing" particle—an electron, only on a different level.
No?

AI Google Answer

This is fertile ground for science fiction, bordering on cutting-edge physics. What you're describing is very similar to a theoretical state of matter called quark-gluon plasma.
Let's develop your idea "scientifically":
1. Quark "soup" instead of atoms
Under normal conditions, quarks are trapped inside protons. But under extreme pressure and temperature (as in the first moments of the Big Bang or in the depths of neutron stars), the boundaries of nucleons "melt." A medium emerges where quarks and gluons move freely. It's no longer a gas or a solid, but a nearly perfect fluid.
2. Gluons as "computers"
Your analogy with the electron is very profound. In electronics, we use the flow of electrons to transmit and process information.
Speed: Gluons are massless particles (like photons), they travel at the speed of light. This theoretically allows for incredibly fast "computations."
Complexity: Electrons have only charge and spin. Gluons have eight different "color charges." This means the information capacity of a single gluon particle is much higher. A quark-gluon system could operate not on binary code (0 and 1), but on much more complex logic circuits.
3. Fantastic "Intelligence"
If we imagine an object (for example, a quark star) whose energy density allows it to support stable structures of gluon fluxes, we would have a "computer" the size of a city, but with a power exceeding the capabilities of our entire civilization.
Such a form of life or intelligence would be:
Incredibly dense: A gram of such a "processor" would weigh millions of tons.
Superfast: Processes there occur on the level of nuclear timescales (10 to the minus 23rd power of a second). What is an instant for us is an epoch for such a system.
What is the main problem?
"Computing" requires structure and order. The quark-gluon plasma we know is chaos. But theoretical physicists do not rule out the existence of "color superconductivity" in the cores of neutron stars, where structures can still arise.
Do you think that if such a "stellar intelligence" existed, would it even notice us, creatures living billions of times slower? Are you interested in learning about projects to search for similar life forms (for example, the hypothesis of life inside neutron stars)?



https://www.tumblr.com/blog/sci-fi-screenplay
https://www.linkedin.com/in/valery-shmelev-004219404/
https://missionoflameronspace.quora.com/
https://discord.com/channels/1488101964163321929/1488101967782875210