Nuclear Extraction Unit
Deploys quantum‑bore drills and gravimetric anchors to harvest neutron‑dense matter from asteroids, micro‑pulsar debris, and rogue planetary fragments.
Outer Edge of the Milky Way
Harvesting the Building Blocks of the Universe
Shahlabs operates autonomous nuclear mining laboratories along the galactic frontier, extracting exotic isotopes that power next‑generation reactors, starships, and civilizations.
About Shahlabs
Shahlabs is a frontier laboratory‑conglomerate specializing in the discovery, extraction, and refinement of nuclear‑grade matter in the sparsely charted outer edge of the Milky Way Galaxy.
From neutron‑rich asteroid belts to rogue planetary cores, Shahlabs deploys fully autonomous research‑mining platforms that convert raw cosmic chaos into stable, usable energy resources.
17
Active Mining Arrays
3
Outer Rim Sectors
0.0001%
Extraction Drift
Core Divisions
A modular structure of specialized divisions keeps Shahlabs agile across hostile environments, from magnetar orbits to dark matter‑rich voids.
Quantum Containment Division
Designs and maintains multi‑layered containment lattices that stabilize volatile isotopes and subcritical antimatter matrices for safe transport.
Deep Space Research
Investigates radiation fields, cosmic ray spectra, and dark‑sector interactions to unlock new energy regimes and refine extraction algorithms.
Logistics & Terraforming Support
Orchestrates resupply routes, in‑situ fabrication, and micro‑terraforming shells that keep mining platforms self‑sufficient for decades.
Frontier Technology
Proprietary systems fuse quantum engineering, AI, and high‑energy physics into a cohesive platform that can operate where conventional industry fails.
- Quantum Bore Drills for sub‑atomic lattice disruption and directed isotope liberation with minimal structural collapse.
- Gravimetric Stabilizers that reshape local gravity wells, enabling precision mining in unstable orbits and debris fields.
- AI‑Driven Mineral Mapping using predictive models trained on centuries of stellar evolution and collision data.
- Zero‑Gravity Refineries that fractionate isotopes in vacuum‑perfect conditions for unmatched purity and yield.
Active Missions
Each mission is a self‑contained ecosystem of labs, reactors, and extraction systems, synchronized through subspace‑linked telemetry.
Project Eventide
An orbital ring of nuclear skimmers harvesting thorium and exotic actinides from the fractured moons of a fading white dwarf star.
Darkwell Alpha
A deep‑void experimental facility testing antimatter‑assisted propulsion cores and ultra‑compact reactor geometries for long‑range starship fleets.
Erebus Protocol
Construction of the first autonomous reactor city, designed to operate without human presence for centuries while exporting stabilized energy packets.
Join the Frontier
Shahlabs recruits specialists ready to operate beyond familiar skies—engineers, physicists, pilots, and architects of the impossible.
Stellar Systems Engineer
Design fault‑tolerant reactor arrays and extraction rigs that survive tidal distortions, solar flares, and radiation storms.
Radiation Physicist
Model high‑energy particle flux, shield critical systems, and push isotopic catalogues into unexplored regimes.
Quantum Data Architect
Architect AI pipelines that convert terabytes of raw stellar telemetry into actionable extraction strategies in real time.
Exo‑Mining Pilot
Operate semi‑autonomous rigs across shifting debris fields, maintaining sub‑meter precision at relativistic edges.
Submit your transmission below and indicate your preferred division and operational risk tolerance.
Transmit a Message
Use the secure relay form to initiate contact with Shahlabs command. Responses may be subject to interstellar latency.