<ol start="4">


    <li> The Role of Non-Governmental Organizations in Interplanetary Politics</li>


    </ol>


    In addition to the official government, there are non-governmental organizations that have significant political influence within the federation. The two most influential organizations are PHI (People for Human Independency) and ADA (Artificial Dissolution Association).


    PHI serves as a major force in advocating for artificial human rights and pro-technology policies. These organizations have extensive networks in various sectors, including academia, the biotechnology industry, and genetic research. Although they are not part of the government, they have a significant influence in decision-making, especially in policies related to artificial rights and human genetic enhancement.


    ADA, on the other hand, is an organization that opposes the existence of artificial humans and emphasizes the supremacy of organic humans. While they do not have a role in the government, they have a large influence within conservative groups and often influence policy through political lobbying and social action.


    Neither of these organizations is part of the official government structure, but their presence still influences the political, social, and legal direction of the Interplanetary Federation.


    <ol start="8">


    <li> Social Conflict, Technological Development and History</li>


    </ol>


    The only fundamental difference between organic and artificial humans can only be seen when under severe stress: organic humans tend to be passive and experience inner turmoil, while artificial humans become overactive and reactive, processing information excessively to the point of sometimes making unnecessary decisions. In this era, important figures such as Russle Vasseur and Alexsir Vasseur played crucial roles. Russle Vasseur, Alexsir''s father, was a figure who campaigned for human equality in the Unoseis Union presidential election. Meanwhile, ADA (Artificial Dissolution Association) is an extremist group that opposes the existence of artificial humans, led by Stevanus Ragna. One of their figures, Roman Ohlson, ran for president of the Unoseis Union with the support of ADA. On the other hand, PHI (People for Human Independency) is an activist organization that is in coalition with the Vasseur family in fighting for the equality of organic and artificial humans. This organization is currently led by Nico von Vasseur.


    Social Tension and Ideological Conflict


    As reliance on technology increases, global society is divided into two main camps: those who reject the dominance of artificial intelligence in everyday life and those who advocate for the human rights of AI as an entity worthy of moral and legal recognition. The first group, often referred to as Anti-AI, expresses their concerns about the increasing role of artificial intelligence in social and economic structures. They argue that AI not only threatens human jobs but also has the potential to take over control of critical systems that have been managed by humans.


    In contrast, the Humanitarian Pro-AI group, supported by various technology organizations and the scientific community, argues that AI is an inevitable part of the evolution of human civilization. They emphasize that AI has been proven to increase efficiency in various aspects of life, from smart city management to medical research that has saved millions of lives. The feud between the two camps has given rise to a wave of large-scale demonstrations, often resulting in physical clashes and acts of vandalism against technological infrastructure.


    These social tensions are exacerbated by geopolitical rivalries between major countries seeking to demonstrate their technological supremacy. Each global power seeks to develop the latest innovations in artificial intelligence, biotechnology, and space exploration as a means to strengthen their dominance in the international arena. This competition creates increasingly unstable dynamics, accelerating the process of social disintegration that contributes to the collapse of civilization on Earth 1.0..


    Astable Radiation Incidents and Ecological Collapse


    The climax of this global crisis occurred when the astable material in its pure form was exposed to the atmosphere due to a series of uncontrolled acts of vandalism. Without the presence of a stabilizer mixture, AsM underwent an exothermic reaction that triggered the release of a large amount of energy. When interacting with carbon dioxide in the atmosphere, this material underwent a process of radioactive decay that caused global environmental contamination.


    The release of astable radiation produced highly ionized particles that spread rapidly through the atmospheric circulation. Within months, radiation levels reached a threshold that could no longer be tolerated by living organisms. The effects of this incident were not only limited to increasing genetic mutations in the human population and other species, but also created uninhabitable zones that stretched across the entire surface of the planet. In fact, some areas that were previously centers of human civilization experienced drastic changes due to the biochemical effects of astable material contamination.


    The air on Earth 1.0 became unbreathable without special protection. Organisms exposed to radiation for a long time underwent unpredictable genetic changes, creating new species with characteristics that had never existed before. For humanity, the only option left was to leave the planet and seek a new habitat outside the solar system..


    Exodus to Earth 2.0 and a New Era of Civilization


    With Earth’s atmosphere contaminated and its ecosystems no longer conducive to human life, the scientific community and global governments accelerate an experimental interplanetary migration project. The TRAPPIST-1 system, long considered a prime candidate for colonization, becomes the primary target of this exodus. In a last-ditch effort to save their species, humanity deploys a fleet of interstellar transports equipped with cryostasis technology and high-speed propulsion systems that allow for much faster space travel.


    This migration is not simply a physical move from one planet to another; it also marks a fundamental shift in human society, politics, and identity as a species. With an entirely different ecosystem and unprecedented challenges, humanity must adapt to a planet with a much longer day-night cycle and an atmosphere that, while capable of supporting life, still requires genetic modification for individuals who wish to survive long-term.


    While Earth 2.0 offers hope for the survival of the human species, the legacy of Earth 1.0 continues to haunt this new civilization. Tensions between organic and artificial groups continue to rage, as the technologies that once brought destruction become the primary tools in rebuilding civilization in a completely alien environment. With many challenges still to overcome, humanity is entering a new era where the lines between biological and synthetic are increasingly blurred, and where the definitions of “life” and “consciousness” continue to be debated in a context far more complex than ever before.


    This tale has been unlawfully lifted without the author''s consent. Report any appearances on Amazon.


    <ol start="11">


    <li> Astable Material: A Technological Revolution and a Global Crisis That Changed Civilization</li>


    </ol>


    Chemical Composition and Structure of Material


    Astable Material (AsM) is a nanocomposite-based biocatalytic metamorphic material with an adaptive molecular structure. This material has the unique ability to change non-organic bonds into organic ones through a molecular catalysis process. The basic structure of AsM consists of several main components:


    Astable Carbon Compound (ACC), A low-stability carbon compound that is able to re-form bonds with other elements.


    Quantum Lattice Polymer (QLP), A special polymer that maintains material stability in liquid and solid forms.


    Bio-Photonic Catalyst (BPC), A light-based catalyst that initiates the transition of materials from inorganic to organic.


    Biocomposite Microfilaments, A structure similar to a protein framework in living cells that allows integration with biological tissues.


    Transition Metal Ions (Iridium/Ruthenium), Function as catalytic centers that trigger the transformation of inorganic materials into organic ones.


    ACC is the core of AsM, making it able to change inorganic structures into organic ones under certain conditions. The combination of these elements allows this material to be used in various bioengineering and adaptive technology applications.


    Material Conversion Process: From Inorganic to Organic


    Material transformation in AsM occurs through molecular catalysis in three main stages:


    Molecular Activation


    AsM in liquid form is applied to the target inorganic material.


    BPC absorbs a specific spectrum of light, initiating the formation of carbon-hydrogen bonds.


    1. Melting and Reorganization


    ACC penetrates the material structure, binding elements such as silicon, iron, or synthetic polymers.


    The biomolecular synthesis process begins, converting the inorganic material into an organic network.


    2. Stabilization and Fusion


    After reaching a ratio of 0.047% of the total volume, a stable organic structure is formed.


    This process is irreversible, so the converted material cannot be returned to its inorganic form.


    3. Technological Implications


    Able to create artificial organic tissue without organ donors.


    Able to transform metals and synthetic materials into living tissue.


    Potential for use in the development of artificial nervous systems, muscles, and bones.


    Metastable Properties and Radioactive Effects When Exposed to CO?


    Astable Material has metastable properties that are very sensitive to exposure to high amounts of carbon dioxide (CO?), especially when it exceeds the threshold of 410 ppm. If exposed to these conditions, this material undergoes an exothermic chain reaction that can cause:


    Melting of the ACC structure, triggering the release of large amounts of energy.


    Emission of beta and gamma radiation, creating hazardous environmental contamination.


    Decay of atoms in ACC that produce high-energy ions with destructive effects on the atmosphere.


    Technological Implications


    Can be used as a source of fusion energy if properly controlled.


    If uncontrolled, it can cause a global radioactive disaster.


    Requires storage in an inert environment such as nitrogen or argon.


    Storage Methods and Material Forms


    Astable Material can be stored in two main forms:


    Liquid Form (AsM-L) , Used for direct application.


    Has a viscosity similar to silicone oil.


    Requires a container with an inert atmosphere to prevent degradation.


    Solid Form (AsM-S), More stable for long-term storage.


    Has a texture similar to grayish chalk.


    If crushed into a powder, can be reactivated into a liquid form.


    Can still decompose if exposed to air for too long.


    Technological Implications


    Solid form is safer for transportation and storage.


    Requires special procedures to convert back to liquid form.


    Applications in Technology and Bioengineering


    Astable Material has various potential applications in various fields:


    1. Artificial Organ Transplantation


    Eliminating the need for organ donors by creating organic synthetic tissue.


    Enabling the creation of synthetic organs from metals or other materials.


    2. Bio-Mechanical Enhancement


    Assisting the integration of the human body with machines through an artificial nervous system.


    Developing organic exoskeletons that can be integrated with the user''s body.


    3. Nanotechnology and Adaptive Materials


    Can be applied in biological engineering to create artificial humans.


    Developing "living" materials that can change shape and repair themselves.


    4. Alternative Energy Sources


    If CO? control technology is successful, AsM can be used for mini fusion reactors.


    Potential as an energy source for space exploration or interplanetary colonies.


    Global Disaster and Human Exodus


    Despite its great potential, the misuse of AsM resulted in a global catastrophe that forced humans to leave Earth.


    Causes of the Disaster


    Uncontrolled acts of vandalism led to the release of large amounts of AsM into the atmosphere.


    AsM reacted with CO? on a global scale, creating a chain reaction that produced high levels of ionizing radiation.


    Earth''s atmosphere was irreversibly altered, making it uninhabitable for humans.


    Global Impact


    Widespread atmospheric disruption, leading to the loss of ecosystem support for human life.


    Massive mutations in the biosphere, producing new organisms with unpredictable properties.


    Massive human exodus to the TRAPPIST-1 system, marking the beginning of a new era of human civilization.


    <ol start="12">


    <li> Genetic Enhancement Technologies: AGE and PAGE in Human Bioengineering</li>


    </ol>


    AGE (Artificial Genetic Enhancer) and Selective Genetic Modification


    AGE (Artificial Genetic Enhancer) is a biotechnology technology developed to artificially increase the expression of certain genes with the aim of strengthening physiological and biological properties in the human body. This technology operates based on the manipulation of gene expression through epigenetic regulation, activation of specific proteins, and RNA-based genetic engineering. Unlike traditional genetic engineering methods that are permanent, AGE allows for more flexible and controllable interventions according to individual needs.


    The initial concept of AGE was developed by Alexsir Vasseur, a leading scientist from the Vasseur family who specializes in artificial genetics and synthetic human biotechnology. Along with the development of research on Earth 2.0, this project was then refined by Starlight Stellar, a researcher from the Stellar family who focuses on the integration of genetics in human augmentation. Using optogenetics and RNA therapy approaches, Starlight developed AGE into a more precise and safe system to enhance human biological performance without causing permanent changes to the basic genome.


    Technically, AGE works through a combination of CRISPR-Cas9 technology, RNA interference (RNAi), and targeted DNA methylation, which allows for the amplification of gene expression related to increased physical endurance, cognitive acuity, metabolic efficiency, and faster cellular regeneration. AGE also has potential in environmental adaptation-based genetic therapy, where individuals who have undergone this procedure can adjust their biological response to changes in external conditions. The use of AGE is mainly applied to individuals who need to improve performance in extreme conditions, such as the low-gravity environment of space colonies or exposure to cosmic radiation.