D I R E C T O R
S Y B A R I U M
- Intent: To create a synthetic energy crystal for the closed-market.
- Image Source: x
- Canon Link: N/A
- Permissions: N/A
- Primary Source: N/A
- Name: Sybarium Synthetic Crystal
- Manufacturer: Roble Manufacturing
- Affiliation: Roble Manufacturing
- Market Status: Closed-Market
- Homeworld: N/A
- Production: Mass-Produced
- Modularity:
- Faceting
- Crystal Size
- Materials:
- Inorganic Crystalline Components
- Classification: Synthetic Energy Crystal
- Average Weight: Light
- Color: Blue
- Resistances:
- Energy: None
- Kinetic: None
- EMP/Ion: Very High
- Lightsabers: None
- Pressure: High
- Extreme Heat: Very High
- Extreme Cold: Very High
- Elemental: Very High
- Force: None
- Alchemy: None
- Disruptors: None
- Sonic: Average
- Radiation: Average
- Corrosion: Average
- Synthetic Kyber Approximate
- Energy amplification and generation; limitless potential
- Achieved by focusing a laser along the crystal's lattices
- Output is proportional to a crystal's size and stability
- Crystal stability increases with faceting
- Focusing Lens capability
- Achieved by several lasers through individual facets
- Crystal will form a tighter, combined beam with amplified power from multiple lasers
- Facets can be constructed to reduce or increase diameter of output laser
- Destabilization with an energy current will create a positive feedback loop, which can result in destructive consequences
- Luminescent; luminosity will increase/decrease depending on charge and amount of energy running through the crystal
- Unlimited Power: The crystal can theoretically produce a limitless stream of power/electricity when a focusing laser passes through it, making it ideal for power generation.
- Focusing Lens: The crystal can be used to form a tighter, combined beam from multiple laser inputs and can be modulated to reduce or increase the diameter of the outputted laser.
- Stabilization: The crystal can be optimized for stability by faceting/increasing the facets of a crystal.
- Limited Power: The maximum output of a Sybarium crystal, how much energy a crystal can produce in a single instance, is directly proportional to the crystals size.
- Keep it Stabilized: When destabilized, a Sybarium crystal can become extremely volatile. The bigger a crystal is, the more easily it can become destabilized, limiting it's feasible power output. Thus, the larger a crystal is, the more it inherently becomes unstable and results in a practical limit on the size production and implementation of the crystal.
One of their most consequential products ever made, and a stable in all technology developed by Roble Manufacturing, the Sybarium Synthetic Crystal is one of the galactic megaconglomerate's finest works.
A synthetic Kyber approximate, the crystal's primary purpose is power generation and amplification. The crystal can theoretically produce a limitless stream of power and/or electricity when a focusing laser passes through it, making it an ideal component for when it comes to power generation. This is achieved by running a focusing laser correctly along the inner latices of the crystal; when done so, the output of the crystal will be greater than what was initially input. This feature, if hypothetically ran through a looped system in which a portion of the output proportional to the input was siphoned and re-input into the crystal, would result in limitless energy potential.
The crystal can also be used as a focusing lens in a variety of ways. It can combine the inputs of various lasers into a single combined beam that has the power of all the lasers in addition to inherently-amplified power generation that the crystal produces. This is done by running lasers through different facets of the crystal; if faceted correctly, the crystal will produce a single unified beam. The diameter of this beam can be increased or decreased by changing the design of a crystal's facets.
Faceting is an important aspect of the crystal's function, as it essentially serves as a safeguard or preventative measure against destabilization. Sybarium crystals can be unstable, and that instability increases with both the size of the crystal, if a disproportional amount of energy is being run through a crystal, or if energy is running through the lattices of a crystal indefinitely. Instability can lead to volatile and deadly consequences, but fortunately there are measures taken to reduce this risk. One such is the uniform manufacture of crystals; since the crystals are synthetic, Roble Manfacturing is able to create units that are essentially uniform, and thus can be faceted and implemented in standard configurations without significant worry of error. Faceting also comes into play here. Faceting the crystal will significantly reduce the risk of destabilization, and increased faceting will reduce that risk even further. Thirdly, Sybarium becomes so impractical to produce at a certain large size due to the fact that destabilization becomes impossible to account for, so Roble Manufacturing installs a cap on the size growth of produced units during the manufacturing phase of the crystal.
In every which way, despite its flaws, Sybarium is still a breakthrough material with a variety of useful and game-changing applications, and has quickly become a stable in next-generation technology throughout the galaxy.
Changes Made: Resistances, Special Features, Strengths, Weaknesses, and Description Expanded; Format.
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