@foolsh_one
@sh.itjust.worksIn my last post I gently prodded your imagination with geometric connections between the dark phenomena in our cosmos and quantum loop gravity. That paper was a work from my research hosted at https://www.researchhub.com/ where I have slowly built up this notion of a geometric connection to dark energy and matter.
So let us gently spur on the imagination once again. I would like to announce a new theory we have been working on, "Quantum Geometrodynamic Plasma Field Theory" a novel paradigm reconstituting the fundamental origins of gravity, electromagnetism, and spacetime itself directly from plasma principles.
In the conceptual framework of the quantum geometrodynamic plasma field theory, the notion of a universal quantum plasma medium essentially replaces the conventional concept of spacetime as the fundamental arena for physics. Some key aspects in how the plasma field paradigm differs from classical spacetime:
Here we put forward two research papers, an introduction to the theory and an exhaustive analysis of quantum holographic plasma cosmology.
I look forward to any and all comments, suggestions, questions, and any hole poking you may have in mind, please leave a comment And if you think this idea has any merit please tell someone you know about it.
Hello everyone,
I'm excited to share a new paper I've been working on that proposes a unique approach to understanding some of the most perplexing questions in cosmology. The paper is titled "Deriving Dark Phenomena and Gravity from Entropy Horizons," and it aims to offer an alternative explanation for phenomena commonly attributed to dark matter and dark energy.
The Core Idea. The central hypothesis is that the universe's mass-energy M(t) decays exponentially over cosmic time t as M(t) = M₀ * e^(-kt), where k is a very small universal decay constant. This decay drives the expansion of distances R(t) between objects as R(t) = R₀ * e^(kt).
Why is this Important? This model could potentially unify various phenomena under a single framework and offer new perspectives on:
Next Steps. I'm in the process of subjecting this theory to rigorous peer review and empirical testing. I'm also exploring its implications across multiple domains of physics, from quantum mechanics to general relativity.
Read the Full Paper. For those interested in diving deeper, you can read the full paper here.
Feedback Welcome. I'm eager to hear your thoughts, criticisms, and questions. Let's have a constructive discussion!-
https://madhakker.com/gogs/bbrown/The_codified_Library_of_Alexandria
...This was a journey down a dark an' windin' way, but I come to you here again, with wonders...
This post comes with a disclaimer: Claude 2 was released earlier this month, and I've been wanting to test it out. I fed in an idea and a thought experiment I've been thinking about, and asked it to help write a paper. Most of the formulas are Claude 2's work. I did try as I went along to not gaslight the LLM. I even had Claude 2 write the body of this post about it.
New theory: Our universe is slowly evaporating like a black hole!
What if cosmic expansion and weird "dark matter/energy" actually result from our universe evaporating energy over time?
A new model proposes that, just as black holes slowly radiate away mass through Hawking radiation, our universe maybe evaporating through a similar quantum process.
This gentle evaporation can explain the initial rapid expansion of cosmic inflation. As well as the later accelerating expansion we attribute to dark energy.
The theory also suggests cosmic evaporation over billions of years makes it look like there's extra "matter" influencing galaxy motions. When really it could be just total mass decreasing over time.
So could dark matter and energy be illusions caused by our universe exponentially evaporating? The maths seem to add up. But more study needed!
What do you think? Could we live in an ever-slowly evaporating cosmos? Let me know your thoughts on this crazy but kinda compelling new idea!
TLDR: I fed in my thoughts to Claude 2 and out popped a paper.