Clarkesworld Anthology 2012 (61 page)

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Despite being scientifically unsound—no evidence for either gravitationally-repulsive matter or “mind over matter” ever having been found—both methods have remained popular for dodging the killjoy of physical law. Antigravity technology adorns the decks of most starships from the
USS Enterprise
to
Battlestar Galactica,
and mental gymnastics facilitate travel for everyone from Roger Zelazny’s
Nine Princes of Amber
to Neo of
The Matrix.

One of the earliest fictionalizations of the seeds of a workable route off-world appeared in Achille Eyraud’s
Voyage à Vénus
(1865). Unlike Jules Verne’s
From the Earth to the Moon,
published in the same year, where astronauts were fired into space from a giant cannon, Eyraud had his adventurers lifted from the Earth by a water-based rocket propulsion system. Though he used the correct principle, if not the most efficient propellant, Eyraud’s novel went largely unnoticed, while Jules Verne’s became one of his world-famous masterpieces.

[An early vision of astronaut transport courtesy of Jules Verne.]

Despite Verne’s oversight on a cannon as a launching means, he carefully researched the scientific possibilities of the day, inventing many plausible technologies, and coming to understandings that were often remarkably prophetic. For example, he accurately described weightlessness in outer space, and inspired American submarine inventor Simon Lake with his tale
Twenty Thousand Leagues Under the Sea.
Most importantly for the future of SF, Verne together with his fellow “Father of Science Fiction,” H. G. Wells, laid a framework for a new brand of SF where scientific truths, as much as they could, infused the fiction.

One of the chief consequences of this focus on scientific awareness, of course, was a renewed examination of how the myriad spacecraft, off-world bases, orbitals, etc. would be powered. Rather than expanding horizons, hard SF actually narrowed the wider genre’s remit, concentrating on places and journeys within our solar system. Here, writers could extrapolate from modern engineering principles, marrying this understanding with the knowledge of our increasingly well-charted interstellar backyard.

Arthur C. Clarke, arguably the greatest exponent of creating great
sensawunda
moments underpinned by scientific rationale, used the solar wind—the faint pressure of innumerable photons flung from the sun—to power solar yachts in his story “Sunjammer.” And in
The Fountains of Paradise,
Clarke describes the construction of a space elevator from Sri Lanka. Such an engineering feat, seriously considered by NASA among other groups, would make space exploration an energetically, and much more economically viable proposition. However, it is still reliant on the development of several technologies—including carbon nanotubes for the cable and electromagnetic propulsion for the transportation.

Perhaps tracking the optimism and successes of various space agencies, hard SF set in the local neighborhood probably attained its greatest popularity in the late ’80s and early ’90s, when Cold War paranoia was in its final throes. Classic texts such as Kim Stanley Robinson’s Mars trilogy and Bruce Sterling’s
Schismatrix
paint detailed pictures of how the solar system might be colonized. In
Red Mars,
the terraforming of the red planet is kick-started by “mohole” drilling to release subsurface heat; the detonation of nuclear explosions deep in the permafrost to release carbon-dioxide and other heat-trapping atmospheric gases; and the insertion of a geosynchronous asteroid to which a space elevator cable is tethered. These steps provide the foundation for the introduction of plant life in the sequel,
Green Mars.

In
Schismatrix
Sterling posits a fragmented humanity, an Earth shattered from ecological collapse, and pockets of Shaper/Mechanist enclaves living in artificial habitats (often asteroids or small moons scooped of their interiors and spun to create artificial gravity). Energy is harvested in myriad ways utilizing biotech, solar collection, and nuclear fusion. Interestingly, although competition between the factions is intense, warfare is considered too horrifying to contemplate—not only because the memory of Earth’s demise is fresh in mind, but because the habitats are so fragile and easy to destroy. Space as an utterly hostile environment for human life is often overlooked in SF, a lesson not forgotten here.

Recent works—such as Duncan Jones’ film
Moon,
Jeff Carlson’s novella
The Frozen Sky,
and Joan Slonczewski’s novel
The Highest Frontier
—continue this tradition of scientifically informed, near-Earth exploration. In both
Moon
and
The Frozen Sky,
Jones and Carlson envision the off-world mining of fuels for nuclear fusion. In
Moon,
Helium-3 is harvested from the dark side of the moon to power an energy-spent Earth, and in
The Frozen Sky,
mecha-mine deuterium from the water ice of Europa to run a fusion “gas” station at the outer reaches of the solar system. In
The Highest Frontier,
by contrast, the cylindrical habitat of Frontera—orbiting above a climate-threatened Earth—draws power from an outer shell of photosynthetic microbes, piggybacking on research into hydrogen-producing bacteria.

[Not simply inspiration for Pink Floyd!]

Universal Power

Modern SF, of course, hasn’t only concerned itself with the exploration and colonization of places within our own solar system. Overlapping with the declining popularity of “space-race” SF through the latter part of the 20th century, new-wave space opera married the pulp adventures of the subgenre’s early days with extensive knowledge of the wider cosmos gleaned from astronomer’s increasingly powerful telescopes.

Seeing deeper and more up-close than ever before, writers such as Alistair Reynolds, Nancy Kress, Greg Egan, and Justina Robson have utilized the exotic playground of dark energy, pulsars, binary stars, exoplanets, nebulae, and black holes (among other phenomena) to depict human stories against the widest, most awe-inspiring backdrops. And the energy sources have often been equally spectacular.

Adam Roberts, in his first novel,
Salt,
begins with a 37-year starship journey powered by a captured comet: “Our comet, fuel and buffer, building speed slowly. Us, strung out along the cable behind, eleven little homes like seashells on a child’s necklace-string.” Not only does using a comet as fuel source remove the need to bring millions of tones of propellant up the energy-sapping gradient of the Earth’s gravitational well, but affixing it to the front of a starship also means the ship is ingeniously shielded from interstellar debris, which even in tiny clumps could be lethal when traveling at appreciable fractions of light speed.

But why take any fuel at all, when the interstellar medium is chock-full of ionized hydrogen anyhow? That was the astronomical fact that inspired an American physicist to conceive of the Bussard ramjet, a space drive powered by scooping up protons using powerful electromagnetic fields, fusing those protons in a fusion reactor, and using the exhaust like a conventional rocket. Despite both theoretical and technical challenges concerning the frictional force of the interstellar gas, insufficient cloud densities, and the difficulty of fusing hydrogen, Larry Niven immortalized the Bussard ramjet by using it as a staple in his Known Space universe, most notably as the engines of his eponymous Ringworld.

[Giant space jellyfish, er, Bussard ramjet, ahoy!]

If you really want a decent, innovative power source for your galactic civilization though, you’re going to want to move away from the relatively pedestrian concepts of combustion or fusion. Burning stuff has been old hat for millennia, and fusing nuclei for magnitudes longer, the domain of a trillion stars. Antimatter is one such candidate. With impeccable scientific credentials—theorized by Dirac and discovered by Andersen a mere four years later—antimatter packs a colossal energetic punch. Being the antithesis of normal matter in every regard except mass, any antiparticle can be combined with its particle sibling in an annihilation reaction that produces oodles of energy in accordance with Einstein’s famous mass-energy equivalence equation, E = mc2. Although Captain Kirk was exaggerating in the
Star Trek
episode “Obsession,” when he told an ensign that a pound of antimatter could destroy a solar system, the annihilation of fifteen pounds of antimatter is approximately equal to the energy that Hurricane Katrina unleashed in 2005.

As well as powering the warp core of the
USS Enterprise,
antimatter has a long history in the genre as an energy source. Back in 1942, Jack Williamson published his story “Collision Orbit” in
Astounding Science Fiction,
in which engineer Jim Drake struggles to exploit the energy of contraterrene (antimatter) asteroids. Most recently, antimatter can be found propelling the ISV
Venture Star,
the vessel that carried Jake Sully to Pandora in
Avatar.
What’s often not confronted in these stories is where this antimatter comes from. To this day, for reasons physicists still don’t fully understand, the universe seems almost entirely matter-dominant, with no sign of the vast gamma ray displays that would occur along the boundaries between matter and antimatter regions. And although antiparticles can be easily created and trapped in places like CERN, if you have to make the stuff in the first place, energy considerations render the idea a non-starter.

Making stuff up is, of course, meat and potatoes for SF writers. Dubious science (Asimov’s positronic brains, anyone?) has never been a barrier to speculative power sources, as Iain M. Banks readily admits in a passage in his famous essay “A Few Notes On the Culture”: “Between each universe [in Banks' Culture series] there is something called the Energy Grid (I said this was all fake); I have no idea what this is, but it’s what the Culture starships run on.”

Perhaps Banks’ Energy Grid is not as far-fetched as it initially sounds, given a patina of credibility by the concept of zero-point energy. ZPE, or vacuum energy, is the lowest possible energy state of a quantum mechanical system. It can be conceived as a vast reservoir of infinite energy sitting below the surface of reality. Doubts are high as to whether this energy can ever be used, but this hasn’t prevented ZPE making an appearance in plenty of SF. In the
Halo
universe, zero-point generators harvest energy from
slipspace
, while in Arthur C. Clarke’s
Songs of Distant Earth,
humanity’s last chance resides with the starship
Magellan,
which is powered by a quantum drive that taps the vacuum energy.

Another of nature’s most mystifying phenomena, black holes, have also been mooted as potential wells of vast amounts of energy. Mini-black holes as compact energy sources were featured in both Joe Haldeman’s
The Forever War,
where the starships use them as drives, and John Varley’s
The Ophiuchi Hotline,
where prospectors hunt for ones that orbit the solar system. Unlike more massive black holes—which can be leveraged as energy sources via the emission of electromagnetic radiation from the infalling accretion disc, or through the theft of the holes’ angular momentum as in the Penrose process—reaping energy from miniature black holes utilizes a quantum-mechanical quirk that leads to the holes evaporating via Hawking radiation.

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