(Original Article First Published 15/4/2016)
"It is good to have an end to journey toward; but it is the journey that matters, in the end.” — Ernest Hemingway
Solar sails used for propelling space ships across the vast distances of space have always been a firm favourite of science fiction stories. I first heard of the concept back in the 1970s in Larry Niven and Jerry Pournelle’s book, The Mote in God's Eye. Also, concept images frequently adorned the pages of the science and science fiction magazines back then, such as in the wonderful OMNI (sadly no longer in print).
In September 2016, this technology will take a significant step forward, when a tiny spacecraft, Prox-1, will hitch a ride onboard the new SpaceX orbital lifter, the Falcon Heavy. And this will be a very important moment for the future of space exploration.
Once Prox-1 has achieved orbit, it will eject a rather special CubeSat spacecraft, LightSail2, a little larger than a loaf of bread, into space. From this tiny ship, once the instruction to deploy has been received, a solar sail, 4.5 microns thick (far thinner than a rubbish bag), will start to unfurl. Once it has been fully extended to its full 32 square metres size, it will start to capture packets of photons from the sun on its reflective surface, converting their momentum to thrust and pushing LightSail2 gently forward.
The LightSail 2 is the work of The Planetary Society, a nonprofit group raising funding through Kickstarter campaigns. The group's stated aim is to engage and empower people around the world, in the advancement of space science and exploration. In 2015 they deployed LightSail 1 which hitched a ride onboard an Atlas V rocket. Although the craft didn’t reach a high enough altitude for solar sailing, its deployment sequence was successfully tested. LightSail 2, picks up where its predecessor left off, and once sailing with the power of the sun's captured photons, ground-based lasers will measure the effect of sunlight on the sails. Its solar sail should also be highly visible from Earth and The Planetary Society intend to organise public viewings.
Compared to chemical rockets, solar sails enjoy a distinct advantage. Unlike the short burst of thrust of a rocket, solar sails deliver continual thrust, ultimately achieving a far higher speed than their chemical rocket cousins. And without the need to carry huge amounts of fuel, this makes them a particularly interesting propulsion system for interstellar travel.
NASA isn’t being left out either and is experimenting with a variant of solar sail technology. They have started testing the Heliopause Electrostatic Rapid Transit System, or HERTS for short. This is an E-Sail that uses charged wires covering an area of 219 football pitches, to electrostatically push the protons in the sun’s solar winds to create propulsion. The intention is to use this craft for travel across the solar system. By comparison, Voyager 1, launched in 1977, took 35 years to reach interstellar space. If the tests all proceed to plan, a HERTS based craft should be able to do the same journey in around twelve years, a third of the time.
Solar sails also hit the news again this week with the announcement that Stephen Hawkin has signed his name to the Breakthrough Starshot Initiative. This project has announced a significant $100 million research fund to investigate the creation of a fleet of tiny nanocraft, the size of postage stamps, and packing the sort of processing power that we find in the average smartphone today. These craft, being propelled by lasers, will head out of our solar system towards our neighbouring star, Alpha Centauri, at up to 20 percent of the speed of light. Travelling at this velocity they should make the 4 light-year journey to Alpha Centauri in about twenty years, taking snapshots all the way during their long voyage and beaming their images back home. Can you begin to imagine the excitement when that fleet of tiny nanocraft finally arrives in our nearest neighbour's system?
Although there is ongoing research into esoteric drive systems like the EmDrive, the technology for solar sails exists today. The Breakthrough Starshot Initiative has a very real chance of sending a probe using this technology, out across the vast distances of space to visit our interstellar neighbours. And with that, and the other current space developments, including in reusable rocketry, it really does feel like we are entering a new era in space exploration. And that can only be a wonderful thing for our future as a species.
Image Credit: Breakthrough Starshot Initiative