Integration of a Shield System into the Plasmon System of Mothership-Class Crafts for Threat Protection in the Radial AdS/CFT Model
Integrating a shield for micro meteorites or bullets and/or explosive shrapnel which can operate with all other plasmon system functions at the same time: Superfluidity, Higgs suppression, Lentz warp
Abstract
This paper details the integration of a shield system into the plasmon-enhanced
quantum cellular automaton (qCA) manipulation system of mothership-class crafts
(medium and large, with power capacities ∼ 100 MW–1 GW), building on the UFO-
type craft blueprint [1, 2]. Designed for on-demand activation against bullets (∼
10^3 m/s, ∼ 0.01 kg, ∼ 5 × 10^3 J) or micro-meteorites (∼ 10–100 km/s, ∼ 1 mg–1 g,
∼ 102–108 J), the shield pulses at ∼ 1 THz during warp jump recycling (∼ 1–
10 s, ∼ 5 s analyzed) for near-continuous protection, deactivating during 1-second
jumps to prioritize Lentz warp soliton generation. The crafts’ grafold surfaces (7–
9 layers, ∼ 1000–10, 000 m^2) and ∼ 10^9–10^10 nano-wires, controlled by a ∼ 10^8
qubit supercomputer, generate surface plasmon polaritons (SPPs) to perturb the
qCA’s stress-energy tensor (∆Tμν ≈ 1.06 × 10^13 J/m3). We derive the shield’s
operation, pulsing mechanism, integration with superfluidity (drag reduction Cd ≈
0.96Cd0), Higgs suppression (mass ∼ 10^−10 kg), and Lentz warp (∼ 9 MW for 1
s, ∼ 100–500 MW total), ensuring compatibility with the radial AdS/CFT model’s
constraints: unitarity (⟨ψ| ˆU † ˆU |ψ⟩ = 1), scrambling (τs ≈ 1.36×10^19 s), holographic
scaling (k(t) ≈ 10^−15), and thermodynamics (S ≈ 10120 nats). Short bursts (∼ 1 s)
incur negligible entropy (∼ 7.25 × 10^43 nats, ∼ 10^−77 of S). The system aligns with
JWST 2025, Planck 2018, and DES 2022 data, enhancing mothership resilience.
