Hard science fiction
Hard science fiction is a category of science fiction characterized by an emphasis on scientific accuracy or technical detail or both. The term was first used in print in 1957 by P. Schuyler Miller in a review of John W. Campbell, Jr.'s Islands of Space in Astounding Science Fiction. The complementary term soft science fiction, formed by analogy to hard science fiction, first appeared in the late 1970s. The term is formed by analogy to the popular distinction between the "hard" (natural) and "soft" (social) sciences. Science fiction critic Gary Westfahl argues that neither term is part of a rigorous taxonomy; instead they are approximate ways of characterizing stories that reviewers and commentators have found useful.
Stories revolving around scientific and technical consistency were written as early as the 1870s with the publication of Jules Verne's Twenty Thousand Leagues Under the Sea in 1870 and Around the World in 80 Days in 1873, among other stories. The attention to detail in Verne's work became an inspiration for many future scientists and explorers, although Verne himself denied writing as a scientist or seriously predicting machines and technology of the future.
Today, the term "soft science fiction" is also often used to refer to science fiction stories which lack any scientific focus or rigorous adherence to known science. The categorization "hard science fiction" represents a position on a broad continuum—ranging from "softer" to "harder".
The heart of the "hard SF" designation is the relationship of the science content and attitude to the rest of the narrative, and (for some readers, at least) the "hardness" or rigor of the science itself. One requirement for hard SF is procedural or intentional: a story should try to be accurate, logical, credible and rigorous in its use of current scientific and technical knowledge about which technology, phenomena, scenarios and situations that are practically and/or theoretically possible. For example, the development of concrete proposals for spaceships, space stations, space missions, and a US space program in the 1950s and 1960s influenced a widespread proliferation of "hard" space stories. One prime example of technology in science fiction is Isaac Asimov's exploration of logic using sentient robots with well defined technology as a vehicle to demonstrate how his now legendary Three Laws of Robotics[better source needed] as well as his penchant for extrapolating science of the time to use in his novels and short stories in a futuristic setting that seemed very plausible not only at the time but are still considered inspiration for current R&D as well as in science. As a scientist he was meticulous in his inventions of new technology. Later discoveries do not necessarily invalidate the label of hard SF, as evidenced by P. Schuyler Miller, who called Arthur C. Clarke's 1961 novel A Fall of Moondust hard SF, and the designation remains valid even though a crucial plot element, the existence of deep pockets of "moondust" in lunar craters, is now known to be incorrect.
There is a degree of flexibility in how far from "real science" a story can stray before it leaves the realm of hard SF. Some authors scrupulously avoid such technology as faster-than-light travel, while others accept such notions (sometimes referred to as "enabling devices", since they allow the story to take place) but focus on realistically depicting the worlds that such a technology might make possible. In this view, a story's scientific "hardness" is less a matter of the absolute accuracy of the science content than of the rigor and consistency with which the various ideas and possibilities are worked out.
Readers of "hard SF" often try to find inaccuracies in stories, a process which Gary Westfahl says writers call "the game". For example, a group at MIT concluded that the planet Mesklin in Hal Clement's 1953 novel Mission of Gravity would have had a sharp edge at the equator, and a Florida high-school class calculated that in Larry Niven's 1970 novel Ringworld the topsoil would have slid into the seas in a few thousand years. The same book famously featured a devastating inaccuracy: the eponymous Ringworld is not (in) a stable orbit and would crash into the sun without active stabilization. Niven fixed these errors in his sequel The Ringworld Engineers, and noted them in the foreword.
Soft science fiction film makers tend to extend to outer-space certain physics that are associated with life on Earth's surface, primarily to make scenes more spectacular or recognizable to the audience. Examples are:
- Presence of gravity without use of an artificial gravity system. Convincingly simulating weightlessness may have a considerable adverse effect on film production costs.
- A spaceship's engines generating sound as the ship passes by the camera angle in outer-space, even with Doppler effect.
- Explosions in outer-space generating sound.
- Pieces of explosion debris generating sound as they pass by the camera angle in outer-space.
- Spaceships following non-linear paths in outer-space (very much like airplanes conduct coordinated flight in Earth's atmosphere), without any visible thrusting activity.
- Spaceship occupants enduring without any visible effort the enormous g-forces that are bound to be generated by a spaceship's extreme maneuvering (e.g. in a dogfight situation).
- Astronauts preferring the agonizing death of CO² asphyxia over the painless death of hypoxia, given that the latter can be easily achieved by slowly releasing the spaceship's atmosphere into outer-space.
- Use of time travel as a plot device, especially backward time travel.
- Laser beams travelling slowly enough across the frame to be seen moving from emitter to target, in reality the beam would be moving at the speed of light and would therefore be seen as a line from source to target constantly illuminated from the moment the laser is turned on until the moment it is turned off.
- Laser beams in space being visible at all, a beam in an atmosphere could be observed as described above as a line between the source and target but in vacuum where there are no dust particles or air molecules to scatter the beam's light it would not be visible from the sides, only from the target looking directly down the beam to the emitter.
- Spacecraft which suffer engine failures are often depicted as "falling" or coming to a stop, in reality any craft in deep or orbital space will simply continue along it's trajectory from before the engines ceased function. A similar error occurs when the "range" of a spacecraft is discussed in fiction, in reality spacecraft do not have ranges (maximum distance that can be covered) they have maximum Delta-vs (the greatest velocity change that can be achieved before the propellant runs out).
Hard science fiction films try to avoid such artistic license.
Arranged chronologically by publication year.
- Hal Clement, "Uncommon Sense" (1945)
- James Blish, "Surface Tension" (1952), (Book 3 of The Seedling Stars (1957)[NB 1]
- Tom Godwin, "The Cold Equations" (1954)
- Isaac Asimov, "Evidence" (1946)[better source needed]
- Poul Anderson, "Kyrie" (1968)
- Frederik Pohl, "Day Million" (1971)
- Larry Niven, "Inconstant Moon" (1971) and "The Hole Man" (1974)
- Greg Bear, "Tangents" (1986)
- Geoffrey A. Landis, "A Walk in the Sun" (1991)
- Vernor Vinge, "Fast Times at Fairmont High" (2001)
- Hal Clement, Mission of Gravity (1953)
- John Wyndham, The Outward Urge (1959)
- Isaac Asimov, Foundation (1951) [better source needed]
- Stanislaw Lem, Solaris (1961)
- Arthur C. Clarke, A Fall of Moondust (1961), Rendezvous with Rama (1972)
- Michael Crichton, The Andromeda Strain (1969)
- Poul Anderson, Tau Zero (1970)
- Joe Haldeman, The Forever War (1974)
- James P. Hogan, The Two Faces of Tomorrow (1979)
- Robert L. Forward, Dragon's Egg (1980)
- Charles Sheffield, Between the Strokes of Night (1985)
- Carl Sagan, Contact (1985)
- Robert Silverberg (editor), Murasaki (1992)
- Kim Stanley Robinson, The Mars trilogy (Red Mars (1992), Green Mars (1993), Blue Mars (1996))
- Ben Bova, Grand Tour series (1992–2009)
- Nancy Kress, Beggars in Spain (1993)
- Catherine Asaro, Primary Inversion (1995, 2012)
- Linda Nagata, The Nanotech Succession (1995-1998)
- Stephen Baxter, Ring (1996)
- Greg Egan, Schild's Ladder (2002)
- Alastair Reynolds, Pushing Ice (2005)
- Paul J. McAuley, The Quiet War (2008)
- Andy Weir, The Martian (2011)
- Neal Stephenson, Seveneves (2015)
- 2001: A Space Odyssey (1968)
- Solaris (1968)
- The Andromeda Strain (1971)
- Silent Running (1972)
- Stalker (1979)
- Blade Runner (1982)
- 2010: The Year We Make Contact (1984) — sequel to 2001
- Contact (1997)
- Gattaca (1997)
- Primer (2004)
- Children of Men (2006)
- The Man from Earth (2007)
- Moon (2009)
- Robot and Frank (2012)
- Gravity (2013)
- Her (2013)
- Ex Machina (2015)
- The Martian (2015)
Anime / Manga
- Yukinobu Hoshino, 2001 Nights (1984, 1986)
- They Were Eleven (1986)
- Royal Space Force: The Wings of Honnêamise (1987)
- Patlabor 2: The Movie (1993)
- Makoto Yukimura, Planetes (1999, 2004)
- Flag (2006)
- Pale Cocoon (2006)
- Dennō Coil (2007)
- Moonlight Mile (2007)
- Eden of the East (2009)
- Ringworld: The Graphic Novel, Part One (2014) & Part Two (2015)
- The Forever War, Vol. 1: Private Mandella (1990); Lieutenant Mandella (2020-2203) (No. 2) (1991); (No. 3) (1992)
- Robot (The Sanatorium of Dr. Vliperdius/Mortal Engines); Timof Comics (based upon stories by Stanislaw Lem) (2013)
- Nicholls, Peter (1993). "Hard SF". In Clute, John; Nicholls, Peter. The Encyclopedia of Science Fiction.
- Wolfe, Gary K. (1986). "Hard Science Fiction". Critical Terms for Science Fiction and Fantasy: A Glossary and Guide to Scholarship.
- "hard science fiction n.". Science fiction citations. Jesse's word. 2005-07-25. Retrieved 2007-10-07.
Earliest cite: P. Schuyler Miller in Astounding Science Fiction ... he called A Fall of Moondust "hard" science fiction
- Hartwell, David G.; Cramer, Kathryn (2002). "Introduction: New People, New Places, New Politics". The Hard SF Renaissance. New York: Tor. ISBN 0-312-87635-1.
- Westfahl, Gary (1996-02-28). "Introduction". Cosmic Engineers: A Study of Hard Science Fiction (Contributions to the Study of Science Fiction and Fantasy). Greenwood Press. p. 2. ISBN 0-313-29727-4. Retrieved 2007-10-07.
hard science fiction ... the term was first used by P. Schuyler Miller in 1957
- "soft science fiction n.". Science fiction citations. Jesse's word. 2005-07-25. Retrieved 2007-10-07.
Soft science fiction, probably a back-formation from Hard Science Fiction)
- Westfahl, Gary (2008-06-09). "Hard Science Fiction". In Seed, David. A Companion to Science Fiction. Malden, MA: Blackwell Pub. pp. 195–198. ISBN 9781405112185. Retrieved 2013-02-04.
- Samuelson, David N. (July 1993). "Modes of Extrapolation: The Formulas of Hard Science Fiction". Science Fiction Studies. 20. part 2 (60). Retrieved 2007-10-07.
- Westfahl, Gary (July 1993). "The Closely Reasoned Technological Story: The Critical History of Hard Science Fiction". Science Fiction Studies 20 (2): 141–142.
- Three Laws of Robotics
- Westfahl, G. (July 1993). "'The Closely Reasoned Technological Story': The Critical History of Hard Science Fiction". Science Fiction Studies (SF-TH Inc) 20 (2): 157–175. JSTOR 4240246.
- Chiang, T. (April 15, 2009). "Time travel is one of the trickiest SF/F tropes to use well". Retrieved 2009-04-28.
- Hartwell, David G.; Cramer, Kathryn, eds. (1994). The Ascent of Wonder: The Evolution of Hard SF. New York: Published by Tom Doherty Associates, Inc. ISBN 978-0-312-85509-3.
- Evidence (short story)
- Hartwell, David G.; Cramer, Kathryn (2002). The Hard SF Renaissance. New York: Tor. ISBN 0-312-87635-1.
- Foundation series#Original stories
- Aylott, Chris. "The Humans Were Flat but the Cheela Were Charming in 'Dragon's Egg'". Retrieved 2009-01-27. Some editions also include a preface by Larry Niven, admitting that "I couldn't have written it; it required too much real physics"
- Alyott, Chris (2000-06-20). "The Vanishing Martian". SPACE.com. Archived from the original on 2000-08-18. Retrieved 2008-07-20.
- Horton, Richard R. (1997-02-21). "Blue Mars review". Retrieved 2008-07-20.
- Bulletin of Science, technology and Science
- Schild's Ladder by Greg Egan
- in which the author discusses his love of hard science fiction and the importance of scientific accuracy to the narrative.
- On Hard Science Fiction: A Bibliography, originally published in Science Fiction Studies #60 (July 1993).
- David G. Hartwell, "Hard Science Fiction,", Introduction to The Ascent of Wonder: The Evolution of Hard Science Fiction, 1994, ISBN 0-312-85509-5
- Kathryn Cramer's chapter on hard science fiction in The Cambridge Companion to SF, ed. Farah Mendlesohn & Edward James.
- Westfahl, Gary (1996-02-28). Cosmic Engineers: A Study of Hard Science Fiction (Contributions to the Study of Science Fiction and Fantasy). Greenwood Press. ISBN 0-313-29727-4.
- A Political History of SF by Eric Raymond
- The Science in Science Fiction by Brian Stableford, David Langford, & Peter Nicholls (1982)
- David N. Samuelson, "Hard SF", pp. 194–200, The Routledge Companion to Science Fiction, 2009.
- Hard Science Fiction Exclusive Interviews
- Kheper Realism scale
- Science Fiction Stories with Good Astronomy & Physics: A Topical Index
- The Ascent of Wonder by David G. Hartwell & Kathryn Cramer. Story notes and introductions.
- The Ten Best Hard Science Fiction Books of all Time, selected by the editors of MIT's Technology Review, 2011
- "Low-Level Science fiction: Sci-fi with hard science and a literary slant"