The Auvura Mars Mission aims to further the exploration of Mars and demonstrate key technologies to enhance our ability to harness the richness of space and further the progress of humanity.
—Sphenome Research Institute
❯ Planned interplanetary travel of 27 days from Earth to Mars is intended to be 10x faster than current inter planetary rockets. With proposed launch dates delayed beyond January 2021, because of some setbacks and continued COVID-19 impact in disruption of normal activities. Auvura seeks collaboration with countries, institutions and private sector to be the first to settle Mars.
❯ HxFuel: A concept of advanced solid-phase rocket-fuel. In theory, it is at least 50% lighter, 500% more thrust than today's rocket propellants.
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❯ GeoRAVE: Advanced space GPS system to assist in efficient inter planetary travel.
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❯ SpheBOTs are rugged, optical-computing enabled advanced robots which are geared towards research and locate regions in Mars for base of operations, research, and mining.
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❯ Spheon Imaging Sensors: Advanced sensors which can be deployed from space or on the ground to assist in search for life and mining potential on Mars.
Auvura Space's aspirational proposed launches of exploratory two-phase rockets in partnership with invited countries will demonstrate:
With the proposed Auvura launch, we aim to introduce generational advances in various aspects of space travel to showcase human achievement. Sphenome Research Institute is engaged in a major outreach with countries to deploy shieldSpace.ai protocols. Additionally, our aim is to further the research in the COVID-19 pandemic and begin the deployment of a grid level protection of Earth from pathogens in Space.
—Dr. Rahul Chaturvedi, M.D., CEO, Moolex. July 28, 2020, New York.
❯ Tolerates 4500°C
❯ Light as composites. Stronger than titanium
❯ Superior to today's propellants
❯ 50% lighter ❯ 500% more thrust
❯ Resistant to accidental fire and explosion
❯ Knowledge of Spheon vortices in interplanetary-travel
❯ Delivering near-real-time device communications between Mars and Earth
❯ Applications include Sphenomium E Class alloy manufacturing
❯ Advanced tracking and research capabilities
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Auvura S-class
Leveraging innovations in rocket manufacturing, engine design, fuel, launch platforms, tracking, communication, navigation control systems, and sensors both in space and on the ground, these rockets enable efficient, robotic exploration and research. Licensing allows multidisciplinary research labs for researchers around the world to study life, atmosphere, basic sciences in space and on Earth.
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Auvura EarthShips
Moolex is rapidly engaging research and industry partners to engage in developing EarthShips. Base models specifications include a diameter of 500 meters, propelled with a combination of HxFuel and Spheon Power. Together with 13 Spheon turbine engines, EarthShips are capable of carrying 10,000 metric tonnes of payload at launch. 15 floors of passenger amenities can safely accommodate 2500 passengers to and from Auvura ports on Earth at Mach 10 and more. Moolex has identified signatures of non-earth metals and alloys potentially available on asteroids and planets in our solar system. These alloys along with advances from ongoing research in fuel, navigation, and engines is geared toward achieving higher speeds for efficient planetary scale travel.
