The Recursive Theory of the Universe and the Quest for Understanding Dark Matter and Energy

The modern scientific understanding of the universe often grapples with phenomena such as dark matter and dark energy, which remain largely mysterious. The traditional approach involves the so-called Standard Model and String Theories, which posit particles that occupy discrete points in space or are represented by lines. However, an increasingly popular and alternative theory proposes a fundamentally different approach to understanding the universe, one that challenges and renews our perspectives on dark matter and energy.

Revisiting the Basics: Dark Matter and Energy as Quantum Bits and Bytes

Dark matter, often described as invisible and undetectable, is a critical component of our understanding of the cosmos. According to this revolutionary theory proposed by 'the Universe,' dark matter is comprised of quantum bits (qubits) with a dimension smaller than the Planck length, making them invisible and undetectable. These qubits form a diffuse quantum cloud with an indefinite intrinsic spin and move violently and unpredictably, occupying superpositions of all possible states. Together, they form an all-encompassing ocean of energy, which we identify as dark energy.

Quantum Bytes: The Building Blocks of the Visible Universe

Quantum bytes, made up of eight qubits each, form the basis of elementary particles in the visible universe, including fermions such as quarks, electrons, and neutrinos, as well as bosons such as gluons, photons, and gravitons. These quantum bytes are three-dimensional and move in diffuse quantum clouds, creating a more consistent description of the forces of nature. Bosons, which are the force-carrying particles, exert the fundamental forces of nature—strong nuclear, weak nuclear, electromagnetic, and gravity—by guiding the qubits, allowing them to interact appropriately in any physical situation.

Addressing the Challenges: Theories of Gravity and the Big Bang

Theories such as Einstein's general relativity and quantum mechanics are often not reconcilable. The former focuses on the infinitely large, while the latter deals with the infinitely small. A geometric theory and a physics theory describing the behavior of matter and energy at the quantum scale are at odds, leading to the development of a quantum theory of gravity as a challenging endeavor. Here, the quantum bytes, as fundamental units, can provide a radically different approach to describing gravitational forces, specifically gravity, with quantum theory. This theoretical framework could ultimately lead to a Theory of Everything (TOE).

Revisiting the Big Bang: A Conceptual Reevaluation

The concept of a big bang as the beginning of the universe is questioned by this theory. Instead, the idea that the universe has always existed, with no beginning or end, is revisited. This theory proposes a static, ever-breathing universe, with expanding and contracting periods during which galaxies are created through galaxy creation bangs. These events involve supermassive black holes that act as catalysts, splitting quantum bytes into Higgs particles and Vi-particles, which then cool down and transform into the fundamental particles of the universe. The process ensures a symmetrical split, both in the visible universe and in an antimatter universe, connected by these supermassive black holes.

Challenging Our Understanding: Dark Matter and Antimatter

Dark matter is often described as a mystery. However, this theory suggests that dark matter is not a substance but rather the result of a process involving the quantum bytes. The concept of dark matter as an unknown type of matter is challenged, with an explanation that celestial bodies are kept in balance through gravitational forces exerted by supermassive black holes and mediated by gravitons escaping from the black hole, thereby counteracting the curvature of spacetime.

Conclusion: A New Approach to Understanding the Universe

The implications of this theory are profound, potentially revolutionizing our understanding of the universe. For cosmologists and particle physicists, it urges a review and possibly a rethinking of current work, given the unique insights provided. As the James Webb Space Telescope and LIGO/Virgo detectors provide more data, the verification and validation of these ideas become closer to reality. This theory opens the door to a new era of cosmic understanding, offering a more coherent and comprehensive picture of the universe's origins and composition.