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{{TechInfo | {{TechInfo | ||
|Name=Casimir Crystal | |Name=Casimir Crystal | ||
|Description= | |Description=Using the force of a strong electric field, a spatial ring crystal can be formed by the Coulomb repulsion between particles. In a weak, static magnetic field the Casimir effect can be observed. | ||
|Cost1Type= | |Cost1Type=Electromagnetic Matrix | ||
|Cost1Qty= | |Cost1Qty=800 | ||
|Cost2Type= | |Cost2Type=Energy Matrix | ||
|Cost2Qty= | |Cost2Qty=800 | ||
|Cost3Type= | |Cost3Type=Structure Matrix | ||
|Cost3Qty= | |Cost3Qty=800 | ||
|Hashes=240k | |||
|UnlockItem1=Casimir Crystal | |||
|UnlockItem2=Casimir Crystal Advanced | |||
|Hashes= | |||
|UnlockItem1= | |||
|UnlockItem2= | |||
}} | }} | ||
Revision as of 21:08, 11 February 2021
Casimir Crystal
Data Volume
240k Hashes
240k Hashes
Using the force of a strong electric field, a spatial ring crystal can be formed by the Coulomb repulsion between particles. In a weak, static magnetic field the Casimir effect can be observed.