Modern methods of energy distribution require a physical medium by which to transfer power, either by the transport of storage media (as in the case of batteries or fuel) or by the conduction of electricity through it. For a variety of critical tasks, energy distribution across large distances without the constraint of an energy storage or conduction medium is extremely valuable. This type of energy distribution – including its wide range of terrestrial, space, and lunar applications – is enabled by Odissey’s laser, optics, and laser photovoltaic (LPV) technology for a complete end-to-end power generation and transmission system that can be scaled from short to long range mission applications.
Odissey’s directed energy systems can also be modularized and scaled to facilitate power distribution across vast distances, which enables a wide application space in orbit and on the lunar surface. As an example, these scaled directed energy systems can be used to provide power to assets exploring permanently shadowed regions on the moon, and the system’s modularity and scalability allows for the distribution of power across wide networks on the lunar surface.
Odissey 