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|Info2Text=Replicator | |Info2Text=Replicator | ||
|StackSize=50 | |StackSize=50 | ||
|Recipes= | |||
{{ItemRecipe | |||
|Out1=Casimir Crystal | |||
|Out1Qty=1 | |||
|CraftTime=4 s | |||
|In1=Titanium Crystal | |||
|In1Qty=1 | |||
|In2=Graphene | |||
|In2Qty=2 | |||
|In3=Hydrogen | |||
|In3Qty=12 | |||
}} | |||
{{ItemRecipe | |||
|Out1=Casimir Crystal | |||
|Out1Qty=1 | |||
|CraftTime=4 s | |||
|In1=Optical Grating Crystal | |||
|In1Qty=6 | |||
|In2=Graphene | |||
|In2Qty=2 | |||
|In3=Hydrogen | |||
|In3Qty=12 | |||
}} | |||
}} | }} | ||
Revision as of 08:16, 16 February 2021
Casimir Crystal
Material
Use a strong electric field to fix the charged particles, and the Coulomb repulsion between the particles will spontaneously form a spatial ring-shaped ion crystal. After applying a weak static magnetic field, the zero-point energy of the particles inside the crystal is excited, producing an obvious Casimir effect.
