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Prompt: A quantum level photo of atom,so much powerful,Hd, detailed, realistic , professional pic, clean
Expert Gamer

Expert Gamer

Model: OpenArt SDXL

Prompt:

A quantum level photo of atom,so much powerful,Hd, detailed, realistic , professional pic, clean
Width: 1024
Height: 1024
Scale: 7
Steps: 25
Seed: 772745922
Sampler: DPM++ 2M SDE Karras

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Prompt: Conceptual illustration of the atom, ball model, floating in space, high quality, realistic, scientific, space, atom model, cosmic background, detailed structure, scientific illustration, detailed shading, scientific accuracy, dark space background, highres, ultra-detailed, realistic, cosmic, scientific
Prompt: Splitting atom. Knowledge
Prompt: Image Description:* - Generate an image representing a Hopf fibration with: - 3-sphere (S3) coordinates: Gravity (x), Weak Nuclear Force (y), Electromagnetism (z), Strong Nuclear Force (w) - 2-sphere (S2) coordinates: Orionis A (x), Electrons (y), Orionis D (z), Orionis C (w), Orionis B (v), Quarks (u) - Combine this with a representation of: - 4 types of galaxies (Spiral, Elliptical, Irregular, Dwarf) - 4 fundamental forces (Gravity, Weak Nuclear Force, Electromagnetism, Strong Nuclear Force) - Trapezium Cluster (Orionis A, B, C, D) *Image Style:* - Abstract, conceptual representation - Colors and shapes can be used to illustrate connections and relationships between the concepts *Keywords:* - Hopf fibration - Fundamental forces - Galaxies - Trapezium Cluster - Celestial bodies - Particles - Abstract representation
Prompt: two dark matter Particles Ordinary matter Capture in side first dark matter particle and antimatter inside second dark matter Particle with weakly interactions but molecular bonding between the two dark matter Particles with the antimatter nuclei in electrostatic symmetry with the dark matter captured ordinary matter nuclei
Prompt: Imagine a 3-sphere (S3) with coordinates (x, y, z, w) representing the fundamental forces: - Gravity (x) - Weak Nuclear Force (y) - Electromagnetism (z) - Strong Nuclear Force (w) This 3-sphere is fibered over a 2-sphere (S2) with coordinates (x, y, z, w, v, u) representing celestial bodies and particles: - Orionis A (x) - Electrons (y) - Orionis D (z) - Orionis C (w) - Orionis B (v) - Quarks (u) The Hopf fibration maps the S3 coordinates to the S2 coordinates, creating a beautiful, intricate structure. The fibers of the fibration represent the relationships between the fundamental forces and the celestial bodies/particles. Please note that this image is a highly abstract representation and not a direct physical mapping. It's a creative way to visualize the connections between these concepts. If you'd like, I can help you explore ways to generate this image using specialized software or programming libraries. Just let me know!
Prompt: Imagine a 3-sphere (S3) with coordinates (x, y, z, w) representing the fundamental forces: - Gravity (x) - Weak Nuclear Force (y) - Electromagnetism (z) - Strong Nuclear Force (w) This 3-sphere is fibered over a 2-sphere (S2) with coordinates (x, y, z, w, v, u) representing celestial bodies and particles: - Orionis A (x) - Electrons (y) - Orionis D (z) - Orionis C (w) - Orionis B (v) - Quarks (u) The Hopf fibration maps the S3 coordinates to the S2 coordinates, creating a beautiful, intricate structure. The fibers of the fibration represent the relationships between the fundamental forces and the celestial bodies/particles.
Prompt: intense heat or energy associated with atomic reactions. It's closely linked to nuclear fission and fusion, where atomic nuclei split apart or fuse together, releasing a tremendous amount of energy in the process. This energy release can manifest as heat, light, and radiation, akin to a powerful flame on an atomic scale. In this sense, "atomic flame" symbolizes the immense power and potential dangers associated with atomic energy.
Prompt: Attoms detailed with electrons and neutrons, Schrodinger equation wave functions, quantum mechanics, scientific illustration, detailed depiction, highres, ultra-detailed, professional, scientific, quantum physics, wave functions, atomic structure, intricate patterns, scientific accuracy, intense colors, detailed illustration, electron cloud, precise rendering, scientific visualization, quantum realm, detailed atomic models, vibrant colors, quantum mechanics, scientific accuracy, intricate designs, atmospheric lighting
Prompt: Imagine a 3-sphere (S3) with coordinates (x, y, z, w) representing the fundamental forces: - Gravity (x) - Weak Nuclear Force (y) - Electromagnetism (z) - Strong Nuclear Force (w) This 3-sphere is fibered over a 2-sphere (S2) with coordinates (x, y, z, w, v, u) representing celestial bodies and particles: - Orionis A (x) - Electrons (y) - Orionis D (z) - Orionis C (w) - Orionis B (v) - Quarks (u) The Hopf fibration maps the S3 coordinates to the S2 coordinates, creating a beautiful, intricate structure. The fibers of the fibration represent the relationships between the fundamental forces and the celestial bodies/particles. Please note that this image is a highly abstract representation and not a direct physical mapping. It's a creative way to visualize the connections between these concepts. If you'd like, I can help you explore ways to generate this image using specialized software or programming libraries. Just let me know!
Prompt: - Generate an image representing a Hopf fibration with: - 3-sphere (S3) coordinates: Gravity (x), Weak Nuclear Force (y), Electromagnetism (z), Strong Nuclear Force (w) - 2-sphere (S2) coordinates: Orionis A (x), Electrons (y), Orionis D (z), Orionis C (w), Orionis B (v), Quarks (u) - Combine this with a representation of: - 4 types of galaxies (Spiral, Elliptical, Irregular, Dwarf) - 4 fundamental forces (Gravity, Weak Nuclear Force, Electromagnetism, Strong Nuclear Force) - Trapezium Cluster (Orionis A, B, C, D) *Image Style:* - Abstract, conceptual representation - Colors and shapes can be used to illustrate connections and relationships between the concepts *Keywords:* - Hopf fibration - Fundamental forces - Galaxies - Trapezium Cluster - Celestial bodies - Particles - Abstract representation
Prompt: a photo of an Atoms
Prompt: Splitting atoms understanding love
Prompt: "Create a 3D model of a cosmic structure with seven concentric, nested spheres, where the innermost sphere (representing our expanding universe) is at the center and expands outward in all directions."
Prompt: (React JS logo), sleek, modern design, vibrant blue tones, dynamic, revolutionary technology, emanating energy, high depth cinematic background, (abstract shapes) to symbolize innovative development, showcasing the power of front-end frameworks, clean lines, futuristic atmosphere, ultra-detailed, HD quality.
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Prompt: Splitting atom. Knowledge
Prompt: a conceptual illustration of the atom, ball model, floating in space
Prompt: Imagine a 3-sphere (S3) with coordinates (x, y, z, w) representing the fundamental forces: - Gravity (x) - Weak Nuclear Force (y) - Electromagnetism (z) - Strong Nuclear Force (w) This 3-sphere is fibered over a 2-sphere (S2) with coordinates (x, y, z, w, v, u) representing celestial bodies and particles: - Orionis A (x) - Electrons (y) - Orionis D (z) - Orionis C (w) - Orionis B (v) - Quarks (u) The Hopf fibration maps the S3 coordinates to the S2 coordinates, creating a beautiful, intricate structure. The fibers of the fibration represent the relationships between the fundamental forces and the celestial bodies/particles. Please note that this image is a highly abstract representation and not a direct physical mapping. It's a creative way to visualize the connections between these concepts. If you'd like, I can help you explore ways to generate this image using specialized software or programming libraries. Just let me know!
Prompt: Conclusion This experiment demonstrates that AI models are capable of rigorous study and conceptual reasoning in quantum mechanics. The convergence on key theoretical points supports the hypothesis that coherence stability in entangled systems may be governed by passive boundary dynamics and energy balance, providing a plausible foundation for future research. These findings advance the concept of accelerated intelligence, where AI is not merely a tool but an active participant in scientific discovery, validating the use of AI in rigorous theoretical exploration. Further research could apply this approach to other domains, exploring AI’s potential to independently verify or even expand new scientific hypotheses.
Prompt: an illustration of a chemistry symbol, benzene ring, stylized, high resolution, ultra detailed
Prompt: photorealistic, (subatomic particles) intricately detailed, dark color scheme, dynamic composition, ethereal glow, enchanting depth, dramatic lighting, high contrast shadows, abstract representation, cosmic theme, high definition, immersive ambiance, scientific aesthetic, molecular structure concept, ultra-detailed textures.
Prompt: photorealistic, (subatomic particles), deep shadows, dramatic lighting, intricate details, dark color scheme, ethereal effects, mysterious ambiance, ultra-detailed, cosmic backdrop, swirling forms, energy fields, beyond the visible spectrum, scientific elegance, high-definition
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