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| checkout [2017/05/25 02:23] – osakanone | checkout [2017/05/25 22:49] (current) – osakanone | ||
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| ^ Topological diagram of the core checkout shell around the Lor core star ^ | ^ Topological diagram of the core checkout shell around the Lor core star ^ | ||
| | {{http:// | | {{http:// | ||
| - | | Note the polar sphere arrangement of the fixed points - the ordered clusters of Caernarfon devices and the field topology, which on full activation will resemble that of a 7 dimensional rodin sphere. | + | | Note the polar sphere arrangement of the fixed points - the ordered clusters of Caernarfon devices and the field topology, which on full activation will resemble that of a 7 dimensional rodin sphere. |
| Powering the system involves an enormous two-step process through the creation of a wormhole circuit similar to early Lorath TTD experiments used to push electrons, which would be taken directly from Fury’s primary location - firing a receiver system into the gas-giant’s core from the Beta Rhoi outpost using a boosted R88 (codenamed RX8888) railcannon system. A secondary pair is simultaneously from close orbit with months of preparation launched into the twin stars of E12. On activation, the system creates a circuit linking the two, triggering massive baryonic decay and the shell around the two stars serves to collect the resulting electricity using a massive one-use-only hardlight rig using the remaining 9.4 quadrillion of the total 14 quadrillion owned by the LSDF (which had deliberately been constructed here, ready for this event). | Powering the system involves an enormous two-step process through the creation of a wormhole circuit similar to early Lorath TTD experiments used to push electrons, which would be taken directly from Fury’s primary location - firing a receiver system into the gas-giant’s core from the Beta Rhoi outpost using a boosted R88 (codenamed RX8888) railcannon system. A secondary pair is simultaneously from close orbit with months of preparation launched into the twin stars of E12. On activation, the system creates a circuit linking the two, triggering massive baryonic decay and the shell around the two stars serves to collect the resulting electricity using a massive one-use-only hardlight rig using the remaining 9.4 quadrillion of the total 14 quadrillion owned by the LSDF (which had deliberately been constructed here, ready for this event). | ||
| - | Triggering massive baryonic decay, the hardlight reciever uses the same wormhole circuit to drive the 7 shells as E12 is collapsed destructively using monopole catylized baryonic decay, a process taking several hours to complete. The remaining stellar mass will eventually collapse into a large gasseous nebula with a failing red dwarf star at its heart. | + | Triggering massive baryonic decay, the hardlight reciever uses the same wormhole circuit to drive the 7 shells as E12 is collapsed destructively using monopole catylized baryonic decay, a process taking several hours to complete. The remaining stellar mass will eventually collapse into a large gasseous nebula with a failing red dwarf star at its heart -- though the navigational hazard formerly offered by the nebulae will no longer exist and the remaining planetoids will settle into a new orbit. |
| Power needed to push the wormhole circuit into its ignition phase and ready to receive from Fury would come from a much smaller system based in orbit around Nepleslia which had been stored in secret for many years. | Power needed to push the wormhole circuit into its ignition phase and ready to receive from Fury would come from a much smaller system based in orbit around Nepleslia which had been stored in secret for many years. | ||