SERVICE-DISABLED VETERAN-OWNED SMALL BUSINESS

EVENT HORIZON

TELPAI — QUANTUM  ·  AUTONOMOUS SUBSURFACE CHARACTERIZATION

Green Horizon Innovations delivers next-generation quantum geophysical exploration and enterprise digital enablement for the Department of Energy and Department of Veterans Affairs — mastering the Arctic biosphere through autonomous sensing and in-situ power harvesting.

SDVOSB CERTIFIED UEI: Z3LZKK5LQTK9 CAGE: 9UGV9 DOE · DE-FOA-0003472 VA ENTERPRISE DIGITAL
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◈ CORPORATE IDENTITY

Green Horizon Innovations

A Service-Disabled Veteran-Owned Small Business with 20+ years of geophysical expertise, pioneering quantum-enhanced exploration technologies for federal agencies and the future of national energy dominance.

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VETERAN-OWNED

Service-Disabled Veteran-Owned Small Business (SDVOSB) — proudly serving the U.S. Government with integrity, discipline, and technical excellence. Registered at greenhorizoninnovations.com

SDVOSB UEI: Z3LZKK5LQTK9 CAGE: 9UGV9
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TARGET AGENCIES

Strategically positioned for multi-award contracts with the Department of Energy (DOE), Department of Veterans Affairs (VA), and Department of Defense (DOD) — aligning quantum technologies with national mission priorities.

DOE VA DOD
20+
YEARS GEOPHYSICAL EXPERTISE

Deep domain knowledge in multi-physics sensing, subsurface characterization, and Arctic resource exploration — from Cook Inlet to the Ring of Fire.

375°C+
SUPERCRITICAL FORMATION CAPABILITY

Engineering solutions for extreme environments — High Pressure, High Temperature, and High Corrosion — the "Extreme Trio" of geothermal challenges.

◈ THE QUANTUM TRINITY OF SENSING

TELPAI — QUANTUM Platform

Three converging sensor modalities form the Quantum Trinity — revolutionizing geothermal resource confirmation in the high-enthalpy volcanic reservoirs of the Alaska Ring of Fire.

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GGMplus SATELLITE

High-resolution satellite gravity modeling at 200m resolution for detecting geological anomalies and mapping subsurface density variations across vast exploration areas.

200m RESOLUTION
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SQUID MAGNETOMETRY

Superconducting Quantum Interference Device sensors achieving 10⁻¹⁴ tesla sensitivity — detecting "blind" hydrothermal reservoirs up to tens of kilometers deep.

10⁻¹⁴ TESLA SENSITIVITY
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4D SEISMIC & MBS

High-resolution microseismic scanning and time-lapse seismic logging linked via Starlink for instantaneous anomaly detection and caprock integrity monitoring.

STARLINK CONNECTED
◈ CORE AI ARCHITECTURE ◈

ENGRAM-ENGN® Reasoning Layer

The ENGRAM-ENGN® architecture provides high-assurance memory and reasoning for real-time geophysical data ingestion. By separating static geological facts from QM2ARL (Quantum Multi-Agent Reinforcement Learning) compositional reasoning, GHI eliminates signal "hallucinations" in complex formations.

SENSOR INGEST

SRM · SQUID · 4D Seismic

ENGRAM-ENGN®

Memory · Reasoning

QM2ARL ENGINE

Quantum RL Agents

DECISION OUTPUT

Drill / Reserve / Map

◈ FEDERAL CONTRACT CAPABILITIES

DOE & VA Multi-Award Positioning

GHI is strategically aligned for multi-award contracts across two critical federal agencies — bringing quantum technologies to national energy and veteran services missions.

DEPARTMENT OF ENERGY

Next-Gen Geothermal Exploration

Topic Area 6 — Drilling for Exploration and Characterization. GHI's TELPAI—QUANTUM platform solves the "Extreme Trio" of HPHT and corrosion challenges in volcanic reservoirs, unlocking stranded "Superhot" resources across the Alaska Ring of Fire.

30%
DRILLING UNCERTAINTY REDUCTION
375°C+
SUPERCRITICAL CAPABILITY
DE-FOA-0003472 · TOPIC AREA 6
DEPARTMENT OF VETERANS AFFAIRS

Enterprise Digital Enablement

Quantum-enhanced data processing and AI-driven modernization of veteran services technology. Leveraging the ENGRAM-ENGN® reasoning layer for intelligent automation, secure data management, and enterprise-scale digital transformation.

AI
ENGRAM-ENGN® REASONING
QM2ARL
QUANTUM MULTI-AGENT RL
DARPA — DEFENSE ADVANCED RESEARCH PROJECTS AGENCY

Quantum Benchmarks Initiative (QBI)

Stage A submission for quantum fault-tolerance architecture. The QM2ARL (Quantum Multi-Agent Reinforcement Learning) framework integrated with the ENGRAM-ENGN adaptive reasoning layer reduces physical qubit overhead through compositional error correction — demonstrating that computational value can exceed cost by 2033. Built on the Novum Organum Engine and Ron Raymond's Semantic Web foundations.

QM2ARL
ADAPTIVE FAULT TOLERANCE
Hμ>0.90
NON-SYSTEM FAILURE CONDITION
DARPA QBI · STAGE A SUBMISSION
DEPARTMENT OF ENERGY — GENESIS MISSION

AI-Accelerated Quantum Carbon Materials from Coal

Phase I proposal ($750K) for AI-driven discovery of graphene quantum dots from Alaska sub-bituminous coal feedstock. QM2ARL agents navigate the synthesis parameter space while TELPAI quantum sensing (SQUID, 4D seismic, GGMplus) characterizes feedstock deposits. Targeting 5x discovery acceleration over conventional methods with applications in quantum computing and energy storage.

$750K
PHASE I · 9 MONTHS
5x
DISCOVERY ACCELERATION TARGET
DE-FOA-0003612 · TOPIC 3B · CRITICAL MINERALS
◈ GEOSPATIAL OPERATIONS

Arctic Biosphere & Extreme Exploration

From deep ocean to deep space — GHI masters the most extreme environments on Earth, specializing in Alaska's Ring of Fire volcanic systems with self-sustaining autonomous platforms.

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ALASKA RING OF FIRE

High-enthalpy volcanic reservoirs targeted for superhot geothermal resource extraction. Our platform identifies blind hydrothermal systems beneath complex geological formations.

GEOTHERMAL EXPLORATION

GEOTHERMAL PROSTHESIS

HPHT-resistant hardware stack with Piezoelectric Probes harvesting mechanical vibration and Thermoelectric Modules exploiting the Seebeck effect — creating self-sustaining current for deep wells.

IN-SITU POWER
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EXTREME TRIO

Purpose-built to withstand High Pressure, High Temperature, and High Corrosion in volcanic brines — eliminating the instrument failure that plagues traditional exploration.

HPHT · CORROSION-PROOF
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DEEP OCEAN

Deep-ocean geospatial operations for subsea resource mapping, geological surveys, and marine environmental monitoring across Arctic waters.

SUBSEA OPERATIONS
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DEEP SPACE

Extending geospatial intelligence to orbital and deep-space exploration — quantum sensor networks and satellite constellation integration for planetary resource characterization.

SPACE EXPLORATION
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ARCTIC BIOSPHERE

Mastering the Arctic ecosystem through comprehensive environmental monitoring, permafrost analysis, and sustainable resource extraction aligned with national defense priorities.

ARCTIC MASTERY
◈ QM2ARL HYPERSCALE PLATFORM

Cook Inlet Geophysical Anomaly Detection

Live demonstration of Quant Hyperscale Q Models applied to Alaska Cook Inlet subsurface exploration — multi-agent quantum reinforcement learning detecting blind hydrothermal anomalies with ENGRAM-ENGN® memory pruning.

COOK INLET · ALASKA RING OF FIRE · 60.5°N 151.5°W
8 AGENTS
1.00
0.50
T=50
Subsurface Magnetic Residual — Cook Inlet Basin
SQUID MAGNETOMETRY + GGMplus OVERLAY · ANOMALY HOTSPOT DETECTION
QM2ARL Multi-Agent Anomaly Scan — Cook Inlet Grid
AUTONOMOUS AGENT POSITIONS · ANOMALY SCORE INTENSITY · QUANTUM RL POLICY
Hyperscale 3D Resource Trajectory — Geothermal Reservoir Model
RESOURCE EXTRACTION SURFACE + TARGET PLANE · COOK INLET SUPERCRITICAL ZONE
8
QM2ARL AGENTS ACTIVE
37.5%
ENGRAM PRUNE RATE
0.49
AVERAGE Hμ SCORE
5
HIGH-VALUE MEMORIES
◈ ADVANCED MATERIALS & QUANTUM CARBON TECHNOLOGIES

Coal to Quantum Dots. Alaska to the Future.

Two decades of molecular polymer science, anti-corrosion engineering, and subsurface cementitious geopolymer R&D converge with quantum AI — transforming Alaska's vast coal reserves into graphene quantum dots, advanced carbon nanomaterials, and next-generation quantum computing substrates.

◈ 20 YEARS OF MOLECULAR SCIENCE ◈

From Wellbore to Quantum Scale

PI Joshua Spooner brings 20+ years of hands-on research in advanced molecular polymer science and engineering — anti-corrosion mitigation systems, life-of-well sustainability technologies, subsurface superstructure design, and cementitious geopolymer formulations for extreme downhole environments. This deep materials expertise now drives GHI's quantum carbon initiative: applying the same molecular-level understanding of structure-property relationships to engineer graphene quantum dots from domestic coal feedstock.

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GRAPHENE QUANTUM DOTS

AI-accelerated synthesis of size-tunable graphene quantum dots from Alaska sub-bituminous coal. QM2ARL agents navigate the vast synthesis parameter space to achieve >40% quantum yield with tunable emission from 400–700nm.

COAL → QUANTUM GRADE
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GEOPOLYMER SYSTEMS

Advanced cementitious geopolymer technologies for wellbore integrity, carbon sequestration sealing, and Arctic infrastructure foundations. Self-healing, ultra-durable formulations for extreme environments.

LIFE-OF-WELL SUSTAINABILITY
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ANTI-CORROSION TECH

Molecular-scale corrosion mitigation systems for subsurface infrastructure, pipeline integrity, and Arctic superstructures. Proven performance in the harshest operating environments on Earth.

20+ YEARS FIELD PROVEN
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QNAAC — ALASKA

Quantum Nuclear Arctic Alliance Center — deploying advanced nuclear, quantum sensing, and AI technologies across Alaska's resource frontier. Integrating with Alaska Native corporations and state stakeholders for economic development.

ALASKA STAKEHOLDER INTEGRATION

BELUGA CARBON NEXUS

The Carbon Nexus facility transforms Beluga coal field resources into high-value advanced carbon materials — graphene, quantum dots, carbon fiber, and activated carbon — creating a new value chain for Alaska communities.

COAL → ADVANCED MATERIALS
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DOE GENESIS MISSION

Pursuing DOE Genesis Mission funding (DE-FOA-0003612) for AI-accelerated discovery of quantum carbon nanomaterials from domestic coal — integrating QM2ARL agentic AI with TELPAI geophysical resource characterization.

$750K PHASE I · $293M PROGRAM
◈ DOMESTIC RESOURCE → QUANTUM TECHNOLOGY PIPELINE ◈

From Alaska Coal Fields to Quantum Computing

GHI's integrated platform closes the loop from geological resource discovery through advanced materials synthesis — using TELPAI quantum sensing to characterize coal deposits, QM2ARL agents to optimize synthesis protocols, and ENGRAM-ENGN reasoning to accelerate the journey from domestic feedstock to quantum-grade carbon nanomaterials. No foreign supply chain dependencies. 100% American.

TELPAI SURVEY

SQUID · Gravity · Seismic

COAL FEEDSTOCK

Beluga · Healy · Usibelli

QM2ARL SYNTHESIS

AI-Driven Discovery

QUANTUM MATERIALS

GQDs · Graphene · Devices

◈ NATIONAL IMPACT

Quantum Energy Dominance

GHI's TELPAI—QUANTUM platform directly supports the DOE's goal of national energy dominance — unlocking superhot geothermal resources and providing a blueprint for RWA tokenization of sustainable assets.

◈ MISSION OUTCOME ◈

Blueprint for Energy Independence

The successful validation of TELPAI—QUANTUM will unlock stranded "Superhot" resources, eliminate traditional exploration failure modes, and establish a new paradigm for continuous monitoring in supercritical formations — powering America's energy future with quantum precision.

30%
DRILLING UNCERTAINTY REDUCTION
10⁻¹⁴ T
SQUID SENSITIVITY
375°C+
SUPERCRITICAL OPS
24/7
AUTONOMOUS MONITORING