Bosonic stasis
Bosonic stasis is the deliberate suppression of motion and interaction in systems comprised primarily of bosonic particles - particles that follow Bose-Einstein statistics. It works by enforcing a quantum state where bosons, such as photons or gluons, are cooled or manipulated to occupy the same quantum state, reducing their ability to interact with surrounding matter.
This process, which typically exploits ultra-low temperature environments or controlled quantum fields, essentially freezes the movement of particles within a specified system, enabling applications where dynamic energy transfer or particle exchange needs to be arrested without violating conservation laws.
Bosonic stasis fields are combined with fermionic regulators, which prevent the breakdown of quantum coherence due to fermion-boson interactions. This type of field engineering enables stasis effects over larger spatial volumes or more complex materials, beyond the single-particle simplicity of early applications.
Research
| Tier | 6.600 | A decimal number between 0.0 and ~12.0 indicating the overall level of "advancement" of the science |
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| Type | Applied | Pure sciences are focused on research and the improvement of knowledge. Applied sciences are too, but to a lesser extent and grant access to more concrete outcomes such as blueprints, governance, and others. |
Aspects
| Physical | Abstract | |
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| Natural | 18 | 0 |
| Artificial | 2 | 2 |
Aspect tiers heatmap
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Blueprints
Coming soon.