If you have ambitions of being one of the first people on Mars, listen up: A Dutch company says it is moving along with its plan to send four lucky Earthlings to colonize the Red Planet. The catch: They won’t ever come back.
The Mars One foundation announced Tuesday that it has secured lead suppliers for an unmanned mission launching in 2018, which involves a robotic lander and a communications satellite. Lockheed Martin has been contracted to study building the lander, and Surrey Satellite Technology Ltd. will develop a concept study for the satellite, Mars One said.
This first mission will demonstrate technology that would be involved in a permanent human settlement on Mars. If all goes well — and that’s still very much an “if” — the first pioneers could land on Mars in 2025.
Enthusiasm has been growing since the project’s first big announcement in April. More than 200,000 people have signed up to be prospective astronauts, Mars One CEO Bas Lansdorp said in Washington on Tuesday.
Apparently, they’re OK with living out the rest of their lives on Mars. The technology for a return flight doesn’t exist — there’s no Kennedy Space Center launch pad over there! — and having a one-way trip greatly reduces costs, the company has said.
The application period is now closed, and by the end of this year, the company plans to notify those special folk who made it to Round 2.
The unmanned mission is the “most important and most difficult step of actually getting humans to Mars,” Lansdorp said.
It would also be the first privately funded planetary exploration mission.
“The opportunity to participate in that is just really exciting,” said Ed Sedivy, a chief engineer at Lockheed Martin Space Systems.
Lansdorp expects that the majority of funding for the unmanned missions will come from sponsors and partners, not public contributions.
The cost of the lander and satellite will be something that the contracted companies will study, although Mars One has a ballpark figure in mind, Lansdorp said.
What they want to send in 2018
The lander will be based on the successful NASA Phoenix mission, Lansdorp said. The Mars One probe will feature a robotic arm carrying a camera that will shoot continuous video, as well as a water experiment that will demonstrate the production of liquid water on the surface of Mars.
“The highest priority is to actually have liquid water on Mars,” he said.
This unmanned mission will also carry the winning projects from an experiment contest. There will be a worldwide university challenge giving teams the chance to propose tests to carry out on Mars.
These could be science experiments, of course, but Mars One is also interested in “fun” experiments. One of Lansdorp’s visions, for instance, is a balloon with a camera attached to it that would film Mars from an altitude of 200 to 500 meters, which has never been done.
The communications satellite will provide live video feed from surface of Mars to Earth, representing the first Mars synchronous communications satellite, Lansdorp said.