, of Houston, Texas, and the University of babyֱapp Boulder are launching a new research effort to lay the groundwork for a one-of-a-kind —a network of hundreds of miles of antennas constructed on the far side of the moon using materials harvested from the lunar surface itself.
NASA recently awarded the team a $125,000 grant to complete a nine-month study on the project, called the Lunar Farside Radio Observatory, or FarView. The funding is part of the 2021 Phase I (NIAC) program. The program is highly competitive with less than 5% of proposals selected for an award.
The NIAC program selects novel concepts to transform future NASA missions with the creation of breakthroughs—such as radically better or entirely new aerospace concepts—while engaging America's innovators and entrepreneurs as partners in the journey. Jack Burns, a professor in the departments of Astrophysical and Planetary Sciences and Physics at CU Boulder, developed the concept for the unprecedented observatory.
“FarView will be the most sensitive astronomical observatory in history," said Ronald Polidan, principal investigator of FarView and director of programs at Lunar Resources.
FarView aims to investigate an unexplored period in the history of the universe called the Cosmic Dark Ages. It will identify the conditions and processes under which the first stars, galaxies and accreting black holes formed. That is, however, just the tip of the iceberg, explained Burns, co-investigator on the project.
“The FarView Observatory will allow for multiple disciplines of science to be probed in unprecedented detail,” said Burns, also vice president emeritus for Academic Affairs and Research for the CU System. "Not only can we do one-of-a-kind astrophysics, but we will be able to probe the subsurface of the moon, develop in depth space weather forecasts, detect magnetic fields associated with potentially habitable planets around nearby stars and even detect lightning storms on Neptune.”
The FarView observatory concept consists of a 20 kilometers by 20 kilometers radio observatory constructed on the moon’s far side surface with a total observatory area of over 400 kilometers, or 250 miles. Due to the enormous size, FarView has been designed to be fabricated “in-situ,” meaning the construction materials will be extracted from the moon and then constructed robotically on the lunar surface with existing space industrialization technologies.
Lunar Resources’ novel lunar resource extraction and space manufacturing technologies are enabling more than 95% of the observatory’s mass to be extracted and then manufactured on the moon.
“Through utilization of the resources on the Moon, we could build FarView at about 10% of the James Webb Telescope cost and operate for more than 50 years. … That’s game changing,” said Dr. Alex Ignatiev, chief technology officer of Lunar Resources.
Through the the NIAC Phase I Study, the team will perform an initial end-to-end system-level study of constructing FarView. Then the team will apply for NIAC Phase II funding before transitioning FarView to a Phase III program to develop the first of four FarView arrays on the lunar surface by 2030.
Lunar Resource is a leading space industrial company pioneering lunar resource extraction and in-space manufacturing technologies.