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Epsilon-Delta: Difference between revisions
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'''Externals and Bionanetics''' | '''Externals and Bionanetics''' | ||
Network access is restricted by proprietary cabling whose design is classified and available to CSO, CEO and CMO aboard [[USS Discovery-B]] and Epsilon Lab on [[DS285]]. Her external surface in contact with airborne environment is an organic, malleable compound designed to instantly become an adhesive and detour attempts as disassembly. Beneath this skin-like surface is a duranium shield that acts as a sensor-resistant material, making premeditated tampering with a tricorder difficult. This highly resistant duranium is also machined into a single-molding that surrounds the positronic unit. The malleable compound can be stimulated to create new identities, although it cannot obfuscate her positronic field from | Network access is restricted by proprietary cabling whose design is classified and available to CSO, CEO and CMO aboard [[USS Discovery-B]] and Epsilon Lab on [[DS285]]. Her external surface in contact with airborne environment is an organic, malleable compound designed to instantly become an adhesive and detour attempts as disassembly. Beneath this skin-like surface is a duranium shield that acts as a sensor-resistant material, making premeditated tampering with a tricorder difficult. This highly resistant duranium is also machined into a single-molding that surrounds the positronic unit. The malleable compound can be stimulated to create new identities, although it cannot obfuscate her positronic field. | ||
Per Intelligence regulations, the positronic shield could not be obfuscated, should the Delta unit be lost to enemy hands. However, the synthetic lifesign is protected from portable sensor equipment with the use a sensor-obfuscating alloy developed from materials salvaged on USS Voyager. Although it cannot totally obfuscate the positronic field, the alloy is embedded into a highly durable nanetic molding into the Delta exo-skeletal structure, using quantum mechanics to successfully interfere with most sub-spatial signals, thus, censoring complex data that reveals the unique reading given by the synthethic lifesign. Even so, the synthetic organism has the unexpected ability to evade all known types of lifesign sensors. | |||
'''Limits Against Directed Energy Diffusion''' | '''Limits Against Directed Energy Diffusion''' | ||