Difference between revisions of "Matter Compression"
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| − | {{TechInfoBox|desc=Create materials of extremely high density|military=3|tech=1|infra=2|colonize=0|preq=Metal|preq2=NanoMin|enables=Solids|armor=[[Neutronium Armor]]|ability=[[Fuel Nanocells]]|quote=Preliminary analysis indicates that our rivals have developed<br /> | + | {{TechInfoBox|logo=[[File:Matter Compression.png|215px]]|desc=Create materials of extremely high density|military=3|tech=1|infra=2|colonize=0|preq=Metal|preq2=NanoMin|enables=Solids|armor=[[Neutronium Armor]]|ability=[[Fuel Nanocells]]|quote=Preliminary analysis indicates that our rivals have developed<br /> |
a safe and reliable method to simulate conditions existing on the<br /> | a safe and reliable method to simulate conditions existing on the<br /> | ||
interior of a stellar mass. The fabrication and transmutation<br /> | interior of a stellar mass. The fabrication and transmutation<br /> | ||
Latest revision as of 07:38, 26 April 2013
| Matter Compression | |
|---|---|
 |
|
| Requires | Nanometallurgy, Nanominiaturization |
| Leads to | Super Tensile Solids |
| Armor | Neutronium Armor |
| Ability | Fuel Nanocells |
Preliminary analysis indicates that our rivals have developed
a safe and reliable method to simulate conditions existing on the
interior of a stellar mass. The fabrication and transmutation
of materials possible in such an environment guarantees significant
industrial and military applications.
- —Probe Team Operations Directorate,
- Top Secret Report
- —Probe Team Operations Directorate,
Breakthroughs in Nanominiaturization and Nanometallurgy lead to complex Matter Compression techniques. Using these techniques, scientists can create materials as dense as the inside of a star, with significant military and industrial applications.
