Atomic Power Spacecraft or: For Space Flight, I Learned to Love the Bomb

Apologizes to Stanley Kubrick, Peter George and Terry Southern and their great movie Dr. Strangelove or: How I Learned to Stop Worrying and Love the Bomb.

It has always irked me that since our glorious days when we were routinely sending men to the moon, and yes we did go there, regardless of the amount of “supposed” evidence that the conspiracy people like to put out there, that we have never been able to go anywhere else in the solar system. Not just sending probes to orbit planets or land on mars and drive around taking panoramas, but actually sending humans to mars.  

So in my research for propulsion systems for the space empire story idea I have, I stumbled across a little gem where humans came close to developing an engine design to go to the stars.

I know that NASA says it will send a crewed spacecraft on a 30-month round trip to Mars as early as February 2031. Are you kidding me? Apollo 11 was the spaceflight that landed the first humans on the Moon, American Astronauts Neil Armstrong and Buzz Aldrin, on July 20, 1969, that means it has taken us 62-years or more than half a century to explore another planet.

Oh, I understand the issues that have kept us from going; the waning political support for our exploration of space, after all the money used for funding such things can be better spent by the politicos who apparently have decided that spending us into oblivion, with nothing to show for it is a much worthier cause.

What if I told you that in the late fifties, a group of scientist had developed an engine that could have taken us to Mars and potentially to Alpha Centauri on a one-way trip that would have lasted 133-years. Granted our cryogenics are lacking so that mission to Alpha Centauri most likely would have been unmanned but the data sent back from the ship, well, it would have filled reams and reams of books. Given us a greater understanding of space and perhaps reinvigorated the sense of wonder and exploration that once gripped us as a people.

Ah, you are piqued aren’t you? Well the project was called Orion. It was funded by ARPA, the USAF and NASA to design an Atomic  (Nuclear)  pulse-powered spacecraft. They were to be propelled by a series of nuclear explosions. The expanding plasma by each explosion would impact a cushioned "pusher plate" made of steel or aluminum at the rear of the spacecraft and push it forward. The spacecraft envisaged for Project Orion were all single-stage and entirely reusable. Imagine that reusable spacecraft.  

Unlike Saturn V, the Space Shuttle, Ares, etc., there would be no throwaway external fuel tanks or booster rockets. Project Orion engineers believed that the entire craft would travel to its destination, regardless of whether that is Earth orbit, the moon, Mars, Saturn or further.

Project Orion had worked out plans for space ships of varying in size from 300 tons (the smallest version) to 8,000,000 tons (the size of a small city). By comparison, the Shuttle orbiter had a mass of approximately 110 tons and carried about 30 tons of payload into LEO (low Earth orbit), and the Saturn V could launch about 120 tons in low Earth orbit or 50 tons into lunar orbit.

The best part of course is the price, including development and all other associated costs, Project Orion was estimated to be at least 20 times cheaper per pound, than any chemical rocket, at putting payload into low Earth orbit... and considerably cheaper for more distant destinations.

So what happened? Well the main unsolved problem for a launch from the surface of the Earth was thought to be nuclear fallout. The explosions within the magnetosphere would carry fissionable materials back to earth unless the spaceships were to be launched from one of the Polar Regions, perhaps from a barge in the higher regions of the Arctic. The initial launching explosion would have been a large mass of conventional high explosive only to reduce fallout; while all subsequent detonations would be in the air and therefore much cleaner. Antarctica is not viable, as this would require enormous legal changes, as the continent is presently an international wildlife preserve. But the North Pole would have been a good place.

However the reasons for shelving the project included a lack of mission requirement (apparently no one in the US Government could think of any reason to put thousands of tons of payload into orbit). The decision to focus on chemical rockets (for the Moon mission) and, ultimately, the signing of the Partial Test Ban Treaty in 1963 spelled the end to the only viable system to send humans to far distant shores.

Therefore, for one brief shining moment humanity had come up with a feasible propulsion system to allow us exploration of our solar system and ultimately the vast sea of stars that lay around us.