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Zooming into the nanoscale realm reveals the fire's true dance of atoms and electrons. Here, individual molecules sway and collide at blinding speeds, guided by probabilistic quantum motions. Oxygen molecules vibrate and rotate wildly, frequently splitting into highly reactive atomic oxygen. Meanwhile, the intense heat shreds hydrocarbons into fragments, freeing energetic electrons from their bonds. Within billionths of seconds, chance atomic collisions ignite volatile reactions. Electrons jump between molecular orbits, releasing photons that spark chain reactions. Atoms rearrange into transient structures that immediately decay and reform. On this scale, fire is a swirling particle mosh pit, with electrons and ions ricocheting off one another continuously. Photons zip through the chaos, getting absorbed and reemitted in quantum leaps. Molecular bonds flicker into existence, break, and reconfigure at femtosecond rates. Each microscopic point in the flame is alive with quadrillions of atomic interactions every second. While governed by the laws of physics, the system dynamics are so enormously complex that the nanoscale fire dances to unpredictable rhythms, always evolving new structures from the quantum chaos.

Jlah Drofloh

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Zooming into the nanoscale realm reveals the fire's true dance of atoms and electrons. Here, individual molecules sway and collide at blinding speeds, guided by probabilistic quantum motions. Oxygen molecules vibrate and rotate wildly, frequently splitting into highly reactive atomic oxygen. Meanwhile, the intense heat shreds hydrocarbons into fragments, freeing energetic electrons from their bonds. Within billionths of seconds, chance atomic collisions ignite volatile reactions. Electrons jump between molecular orbits, releasing photons that spark chain reactions. Atoms rearrange into transient structures that immediately decay and reform. On this scale, fire is a swirling particle mosh pit, with electrons and ions ricocheting off one another continuously. Photons zip through the chaos, getting absorbed and reemitted in quantum leaps. Molecular bonds flicker into existence, break, and reconfigure at femtosecond rates. Each microscopic point in the flame is alive with quadrillions of atomic interactions every second. While governed by the laws of physics, the system dynamics are so enormously complex that the nanoscale fire dances to unpredictable rhythms, always evolving new structures from the quantum chaos.

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Zooming into the nanoscale realm reveals the fire's true dance of atoms and electrons. Here, individual molecules sway and collide at blinding speeds, guided by probabilistic quantum motions. Oxygen molecules vibrate and rotate wildly, frequently splitting into highly reactive atomic oxygen. Meanwhile, the intense heat shreds hydrocarbons into fragments, freeing energetic electrons from their bonds. Within billionths of seconds, chance atomic collisions ignite volatile reactions. Electrons jump between molecular orbits, releasing photons that spark chain reactions. Atoms rearrange into transient structures that immediately decay and reform. On this scale, fire is a swirling particle mosh pit, with electrons and ions ricocheting off one another continuously. Photons zip through the chaos, getting absorbed and reemitted in quantum leaps. Molecular bonds flicker into existence, break, and reconfigure at femtosecond rates. Each microscopic point in the flame is alive with quadrillions of atomic interactions every second. While governed by the laws of physics, the system dynamics are so enormously complex that the nanoscale fire dances to unpredictable rhythms, always evolving new structures from the quantum chaos.

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CFG Scale

7

Steps

20

Sampler

DPM++ 2M Karras

Seed

3920081554

Clip Skip

1

Image Size

1024 X 1024

Model

Deliberate

Generate

Size

4096X4096

Date

Oct 18, 2023

Mode

Default

Type

upscale

Checkpoint & LoRA

Checkpoint

Deliberate

LORA

Emma Watson

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