Approved Tech Kyromite Crystal

[Ethanael Halscott]

KYROMITE​

OUT OF CHARACTER INFORMATION

• Intent: To create a non-Force-sensitive crystal material for use in advanced energy regulation systems, hyperdrive cores, and power control technology across starships, stations, and energy-intensive platforms.
• Image Source: N/A
• Canon Link: N/A
• Permissions: N/A
• Primary Source: N/A

PRODUCTION INFORMATION

• Manufacturer: Sovereign Minerals
• Affiliation: Imperial Commonwealth of Dosuun
• Market Status: Closed-Market
• Model: SXM-DRPC-X1 “Kyromite”
• Modularity: No
• Production: Minor
• Material:
  
  • Naturally occurring crystalline lattice
  • Trace elements: Neutronium inclusions, isotopic silicates, stable plasma residues
  • Often suspended in crystaplast or duraplast matrix for protection

SPECIAL FEATURES

• Power Field Stabilization: Maintains phase integrity in high-output hypermatter reactors and energy systems.
• Thermal and Radiation Shielding: Provides resistance to thermal overload and EM radiation; ideal for deep-space systems.
• Phase Resonance Modulation: Capable of modulating power surges in unstable or shifting environments (hyperspace transitions, rift space, vector-thrust maneuvers).
• Synthetic Growth Variant: Exists in synthetic form; easier to produce but slightly less resilient.
• Energy Regulation: Acts as a natural regulator and insulator of unstable hypermatter or zero-point energy flows.
• Phase-Stabilization: Maintains power field cohesion during rapid flux transitions (e.g., vector-thrust maneuvers or reversion to realspace).
• Thermal Resilience: Withstands extreme temperatures and radiation spikes common in capital-grade or deep-space systems.
• Self-Harmonic: Emits a soft harmonic frequency under load, allowing real-time resonance monitoring (non-sentient).
• Polarity-Responsive: Can be cut or grown to favor positive or negative energy channeling based on electromagnetic alignment.

STRENGTHS

• Excellent energy modulation for high-demand systems (e.g., starship reactors, hyperdrives, power cores).
• High radiation and thermal stability.
• Compatible with existing modular systems and crystalline matrices.
• Enhances performance and safety margins in experimental or high-capacity drives.

WEAKNESSES

• Brittle under mechanical impact; not suitable for armor or melee weaponry.
• Requires containment housing (crystaplast, duraplast, or polycarbonate) for safe operation.
• Ion-based interference can disrupt resonance if shielding is not present.
• Synthetic versions degrade over long-duration reactor use, requiring replacement or recalibration.

DESCRIPTION
Discovered in deep planetary fault zones and neutron-dense asteroid fields, within the Commonwealth, Kyromite is a crystalline material prized for its unique ability to regulate and stabilize extreme energy flows in modern starship technology. When cut and aligned properly, Kyromite resonates at frequencies ideal for modulating hypermatter containment fields, reactor surges, and phase flux harmonics.

While brittle when struck physically, its thermal and electromagnetic resilience makes it ideal for integration into power systems, shield capacitors, and deep-space hyperdrive matrices. Kyromite is now employed in the construction of crystal-fused engine systems, gravity well field generators, and long-range communication amplifiers.

Though naturally occurring deposits are rare and prized, synthetic Kyromite is viable in lower-demand systems. However, extended use in high-load environments can lead to resonance drift and energy bleed, requiring recalibration or crystal replacement.

 

[MANIAC]

Ethanael Halscott

Wonderful sub!

Approved.