Orbital Launch Vehicle

SUPER-LIFT

Total Flights: Total Landings : Total Reflights:

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OLV Super-Lift Overview

The OLV Super-Lift represents the pinnacle of heavy-lift launch technology, purpose-built by QuantumTech Dynamics to power the next generation of human and robotic exploration beyond Earth. Designed for unparalleled strength and versatility, this fully reusable, multi-stage rocket is capable of delivering massive payloads to low Earth orbit, lunar orbit, and even deep space destinations.

At its core, the OLV Super-Lift integrates cutting-edge propulsion with a modular architecture that enables rapid reconfiguration for crewed, cargo, or hybrid missions. Its powerful clustered booster system provides immense initial thrust, while the upper stages are optimized for high-efficiency burns and precise orbital insertions. With vertical landing capability and robust heat shielding, each component is engineered for rapid turnaround and minimal refurbishment between missions.

Whether launching components for orbital infrastructure, deploying lunar landers, or transporting astronauts to the Moon and beyond, the OLV Super-Lift is QuantumTech’s flagship for interplanetary ambition. It’s more than a rocket — it’s the vehicle of humanity’s return to deep space.

Rocket Specifications

Height
351 Studs (322 feet)

Core Diameter
21 Studs (19 feet)

Launch Mass
~1,420,000 kg (3,130,000 lbs)

Dry Mass
~180,000 kg (397,000 lbs)

Core Stage Engines
4× LeapJet-1 Engines

Booster Engines
4× LeapJet-1 Engines

Liftoff Thrust
~22,000 kN (4.95 million lbf)

Fuel Type
RP-1 (refined kerosene) and Liquid Oxygen (LOX)

Stages
2 stages + 2 solid rocket boosters (SRBs)

Second Stage Engine
1× LeapJet-1 Vacuum Engine

Payload to LEO
~63,000 kg (138,000 lbs)

Payload to Lunar Transfer Orbit (LTO)
~26,000 kg (57,000 lbs)

Crew Capacity
Uncrewed (primarily), optionally capable of carrying 3 astronauts with a crew module

Mission Types
Orbital launches, suborbital missions, lunar transfer missions, heavy satellite or probe deployment

Turnaround Time
~10–20 days (estimated with recovery and refurbishment)

Engines

LeapJet-1

12 Total Engines in the Vehicle - Core Stage, Boosters

LeapJet-1 Vacuum

1 Total Engine in the Vehicle - Second Stage

Flown Missions

Lunar Horizons 1

The Lunar Horizons 1 mission marked a historic leap forward for QuantumTech Dynamics, showcasing the full capabilities of the OLV Super-Lift vehicle for the very first time. The mission achieved a flawless launch sequence, including the successful recovery of the two Solid Rocket Boosters, the central Booster, and the Second Stage—all of which returned to Earth with precision landings. After reaching orbit, the vehicle completed a controlled reentry and landed safely back at the launch site, proving the full reusability of QTD’s next-generation heavy-lift system. Lunar Horizons 1 not only set the stage for deeper space operations but also validated the company’s vision for sustainable, cost-effective access to orbit.

LH-1 Launch Video

Lunar Horizons 2

Lunar Horizons 2 marked a major leap forward for QuantumTech Dynamics’ lunar ambitions, showcasing both technological advancement and operational excellence. The mission saw the second successful flight of the powerful OLV Super-Lift launch system and the inaugural flight of the Lunar Expedition Module (LEM) — a key step toward future crewed lunar landings. In a display of remarkable engineering, all major components of the launch vehicle — including the core booster, both solid rocket boosters, and the second stage carrying the LEM — successfully returned to Earth and landed safely. This milestone not only validates the reusability and reliability of QTD’s hardware, but also brings the dream of a permanent human presence on the Moon closer to reality.

LH-2 Launch Video

Lunar Horizons 3

Lunar Horizons 3 marked a historic achievement for QuantumTech Dynamics, pushing the boundaries of reusability and lunar exploration. The mission featured the third consecutive successful launch of the OLV Super-Lift, the second flight of the Lunar Expedition Module (LEM), and, for the first time, a fully autonomous uncrewed lunar landing of the LEM on the Moon’s surface. In a continued display of engineering excellence, the booster, both solid rocket boosters, and the second stage all executed flawless returns and landings. Additionally, the mission deployed a classified Department of Defense satellite into geostationary orbit, demonstrating the OLV’s versatility in both lunar and national defense operations. With Lunar Horizons 3, QuantumTech Dynamics has taken a major step closer to sustained lunar missions and deep-space capability.

LH-3 Launch Video

Lunar Horizons 4

Lunar Horizons 4 marked another milestone in QuantumTech Dynamics' expanding lunar program, successfully launching from the David Launch Center and completing a flawless orbital flight around the Moon. The mission carried astronauts Bob David and Danon Kyzer, on a multi-day journey through cislunar space. Designed as a systems verification flight ahead of future landings, LH-4 tested updated life support and navigation systems in deep space conditions. All mission objectives were met, and both crew members returned safely following precise reentry and recovery. The success of LH4 further cements the reliability of QuantumTech’s launch and spacecraft architecture as the company sets its sights on sustained lunar surface operations.

LH-4 Launch Video

Lunar Horizons 5

The Lunar Horizons 5 mission marked a historic milestone in lunar exploration, successfully delivering astronauts John Brown, Nathan Brooks, and Joshua Lindley—the first UKB astronaut—to the Moon’s south polar region. The crew executed a precision landing near the lunar south pole, an area of high scientific interest due to its potential water ice deposits. Over the course of their surface operations, the astronauts conducted lunar walks, collected valuable geological samples, and documented the unique terrain for future missions. In a testament to the program’s engineering excellence, both the Lunar Excursion Module (LEM) and all mission hardware were safely returned to Earth intact and are ready for reflight, underscoring the reusability at the core of the Lunar Horizons program.

LH-5 Launch Video

Lunar Landing Overview

1. Launch & Earth Orbit Insertion
The mission begins with the launch of the OLV Super-Lift from the David Launch Center. The core and SRBs lift the crew module and Lunar Lander stack into Low Earth Orbit (LEO), where systems are checked and transfer preparations are made.

2. Trans-Lunar Injection (TLI)
Using the upper stage, the spacecraft performs a precise engine burn to enter a trajectory toward the Moon. After separation, the stack coasts toward lunar orbit.

3. Lunar Orbit Insertion (LOI)
A braking burn positions the spacecraft into a stable Lunar Orbit. The Lunar Lander separates and begins descent preparations while the crew module remains in orbit (if not integrated).

4. Lunar Descent & Landing
The Lunar Lander begins its powered descent, using onboard engines to slow down for a soft landing on a designated site, such as Mare Tranquillitatis or the South Pole region. Touchdown occurs on extendable landing legs.

5. Lunar Surface Operations
Astronauts deploy from the lander to conduct surface science, collect samples, and test equipment such as ISRU (in-situ resource utilization) systems. Mission durations range from 3 to 14 days, depending on life support and energy reserves.

6. Ascent & Rendezvous
The ascent stage of the Lunar Lander lifts off and performs a rendezvous with the orbiting return vehicle or re-docks with the integrated spacecraft in lunar orbit.

7. Return to Earth
After docking and crew transfer, the spacecraft departs lunar orbit and initiates the Trans-Earth Injection (TEI). Reentry procedures are executed upon Earth approach, with splashdown or soft landing depending on capsule type.

Space Hotel

Floating silently above Earth’s curve, the world’s first true space hotel marks a historic milestone in off-world habitation. This orbital habitat combines cutting-edge engineering with modern comfort, offering guests an unprecedented opportunity to experience life beyond the atmosphere. With its rotating gravity ring to simulate Earth-like conditions, modular docking hubs, and panoramic observation decks, the hotel delivers not only breathtaking views but a fully immersive space-living experience. From zero-gravity recreation zones to private habitation pods, every detail is crafted to ensure safety, sustainability, and serenity among the stars.

This ambitious endeavor is made possible through the collaboration and vision of Dubinski Apartment Estates, a forward-thinking developer dedicated to pioneering off-world real estate. Their mission: to extend human presence into orbit with the same confidence and quality found in terrestrial living. By merging architectural excellence with the frontier of aerospace innovation, Dubinski Apartment Estates is helping redefine what it means to "go on vacation." In partnership with QuantumTech Dynamics and its OLV Super-Lift launch platform, they are turning science fiction into daily reality — one orbital sunrise at a time.

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