Quantum Assembler

2025-08-16 20:58

STATUS: #seed

TAGS: wof technology, quantum assembler, worldbuilding

Quantum Assembler

Quantum assembler

Modern science has developed to a point where it can empirically prove the accuracy of many aspects of indigenous belief systems but contrary to these systems, it is still being used for profit.

Humans developed a technology they call “Quantum assembler”, which operates on the principles of quantum entanglement. It can be configured to assemble particles, targeting specific compositions of them. They were able to pinpoint the specific signatures of any particle composition. But the technology can’t keep “energetic entities” in a fixed form and has to create organic matter as a container. The outcome is an organic representation of the usually purely energetic form of those entities. It also contains the respective abilities of said entities, in the case of the Mabou the ability to stimulate the growth and give form to organic matter. Through this technology, scientists were able to empirically confirm the existence of different dimensions and its inhabitants.

The technology was developed after humanity had exhausted the soils through monocultural production, the use of chemicals and genetic manipulation. After a worldwide famine, most of the human population had died. Scientists then had a breakthrough in Quantum mechanics and were able to develop the Quantum assembler. Initially the developers, Dr. Icarus and Dr. Njaay, wanted to make this technology open source in order to provide the human population with synthesised foods for free but the techno-feudalists, the ruling class that emerged out of the powerful tech oligarchies of the 21st century, claim the assembler technology for themselves. In order to generate profit, they produce nutrient-poor, tasteless food for the masses which is void of the essential ingredient of magic. They reserve the right to “assemble” Mabous to tend to their gardens and produce premium yield. Greys (vegetables) / Because food production went bad in conventional farming and the vegetables turned grey while in the remaining sanctuaries of indigenous communities produce is healthy, scientists go and conduct a study. The plants from indigenous communities emit sound waves on the quantum level and create energetic patterns which repeat. That’s how they locate the specific particle combination of the Mabou. The Quantum assembler sends out a signal of some kind (frequency, pheromon, electromagnetic pulse) and essentially encourages particles to communicate about a certain place and time they’ve last been part of one organism.

Atom formation

Atoms form through a process called atomic bonding, which involves the combination of individual particles called protons, neutrons, and electrons. Here’s a simplified explanation of how atoms form:

Protons, Neutrons, and Electrons: Atoms are made up of three primary subatomic particles: protons, neutrons, and electrons. Protons and neutrons reside in the nucleus at the center of the atom, while electrons orbit the nucleus in various energy levels or shells.
Atomic Nucleus Formation: The nucleus of an atom forms first. Protons, which have a positive charge, are attracted to each other due to the electromagnetic force. Neutrons, which have no electric charge, help stabilize the nucleus by counteracting the repulsion between protons. The nucleus, therefore, consists of a combination of protons and neutrons bound together by the strong nuclear force.
Electron Arrangement: Electrons, which have a negative charge, are attracted to the positively charged nucleus. However, due to their small size and high velocity, electrons do not fall into the nucleus but instead occupy specific energy levels or shells around it. These energy levels can hold a specific number of electrons, with the innermost shell holding the fewest electrons and subsequent shells able to hold more.
Atomic Bonding: Atoms can form bonds with other atoms through the interaction of their electrons. There are primarily two types of atomic bonding:

- Ionic Bonding: In ionic bonding, atoms transfer electrons to or receive electrons from other atoms to achieve a stable electron configuration. This transfer creates ions, which are charged atoms. For example, when sodium (Na) reacts with chlorine (Cl), sodium donates one electron to chlorine, forming a positively charged sodium ion (Na+) and a negatively charged chloride ion (Cl-). These oppositely charged ions are then attracted to each other, forming an ionic bond.

- Covalent Bonding: In covalent bonding, atoms share pairs of electrons to achieve a stable electron configuration. Each atom contributes one or more electrons to the shared pair, forming a bond. For example, in a molecule of water (H2O), each hydrogen atom shares one electron with the oxygen atom, forming covalent bonds.

Through these processes of atomic bonding, atoms combine to form molecules, which are the building blocks of matter in the universe. The specific arrangement and bonding of atoms determine the properties and behavior of different substances.

Teleportation

The basic idea is to use quantum entanglement to transfer the quantum state of one object (the “sender”) to another object (the “receiver”) instantaneously, effectively teleporting the sender to the location of the receiver.

Entanglement Creation: First, the sender and receiver are each paired with a third particle through a process that creates entanglement between them. This means that the quantum states of the sender and receiver particles become correlated with the state of the third particle.
Measurement: Next, the sender performs a measurement on their particle, collapsing its quantum state into one of several possible states. This measurement is used to encode the information to be teleported.
Communication: The sender then communicates the outcome of their measurement to the receiver using classical communication methods. This information does not contain the exact state of the sender’s particle but rather enables the receiver to perform a specific operation on their entangled particle.
Operation: Upon receiving the classical information from the sender, the receiver performs a quantum operation on their entangled particle based on this information. This operation effectively transforms the receiver’s entangled particle into an exact replica of the sender’s original particle, including its quantum state.
Teleportation: As a result of the quantum operation performed by the receiver, the state of the sender’s particle is teleported onto the receiver’s particle. From an outside perspective, it appears as though the sender’s particle has instantaneously “teleported” to the location of the receiver.

Only the quantum state of the sender’s particle is teleported, not the actual matter or energy constituting the particle itself.

Molecular assemblers

The basic idea behind molecular assemblers is to have tiny machines capable of arranging atoms or molecules into desired structures, much like a 3D printer constructs objects layer by layer but at a much smaller scale. These assemblers would be able to build virtually any object or material with atomic precision, leading to a wide range of potential applications, including:

Material Synthesis: Molecular assemblers could be used to fabricate advanced materials with precisely tailored properties, such as super-strong or lightweight materials, as well as materials with novel electrical, optical, or mechanical properties.

Medicine and Healthcare: They could revolutionize medicine by enabling the precise fabrication of pharmaceuticals, including personalized medications tailored to individual patients. They could also be used for targeted drug delivery, tissue engineering, and even the repair of damaged cells or tissues at the molecular level.

Electronics and Computing: Molecular assemblers could pave the way for the development of incredibly small and powerful electronic devices, including nanoscale transistors, sensors, and memory storage devices. They could also enable the fabrication of quantum computers and other advanced computing technologies.

Energy: Molecular assemblers could be used to fabricate highly efficient solar cells, energy storage devices, and catalysts for renewable energy production and storage. They could also play a role in the development of new materials and processes for energy harvesting and conversion.

What human bodies are made of

On the smallest scale, human bodies are made up of atoms, which consists of a nucleus composed of protons and neutrons (made of quarks) surrounded by electrons. These particles are considered the building blocks of matter in the universe, including our bodies.

Relationship between quantum mechanics and molecules

Think of quantum mechanics as the rulebook that governs how tiny particles like atoms and electrons behave on the smallest scale. Now, molecules are like teams made up of these tiny particles. Just as a team follows the rules of a game, molecules follow the rules of quantum mechanics. So, quantum mechanics is like the instruction manual for how molecules play their “game” in the world of the very small.

Quantum entanglement is a phenomenon in quantum mechanics where two or more particles become correlated in such a way that the state of one particle is dependent on the state of the other(s), regardless of the distance between them. This means that the properties of one particle are intrinsically linked to the properties of the other particle(s), even if they are separated by vast distances instantaneously.

The Mabous energy to stimulate growth of organic matter and to give it form through their ability to control the morphogenetic fields, an energetic information transportation system and an aspect of what the Mabou call the One force. Due to the Mabous susceptibility to their energetic environment, humans don’t have to force them into labour, but they enter into a state of subservience within the city’s bounds. Feen wakes up in an extraction facility (factory) in a city and fights this powerful pull to obey.

Race is not a question amongst humans any more because they now “other” the inhabitants of Astrae and the populations are so mixed up, that they ran out of categorization options.