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States of secrecy: an introduction

Published online by Cambridge University Press:  22 May 2012

KOEN VERMEIR  and
DÁNIEL MARGÓCSY
KOEN VERMEIR
Affiliation:
CNRS (Laboratoire SPHERE, UMR 7219); Univ Paris Diderot, Sorbonne, Paris Cité, 5 rue Thomas Mann – Case 7093, 75205 Paris Cedex 13, France. Email: koen.vermeir@paris7.jussieu.fr.
DÁNIEL MARGÓCSY
Affiliation:
Hunter College, Department of History, West Building Room 1512, 695 Park Ave, New York, NY 11101, USA. Email: margocsy@gmail.com.
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Abstract

This introductory article provides an overview of the historiography of scientific secrecy from J.D. Bernal and Robert Merton to this day. It reviews how historians and sociologists of science have explored the role of secrets in commercial and government-sponsored scientific research through the ages. Whether focusing on the medieval, early modern or modern periods, much of this historiography has conceptualized scientific secrets as valuable intellectual property that helps entrepreneurs and autocratic governments gain economic or military advantage over competitors. Following Georg Simmel and Max Weber, this article offers an alternative interpretation of secrecy as a tool to organize and to hierarchically order society. In this view, the knowledge content of secrecy is less important than its social-psychological effects. The authors argue that, in many instances, entrepreneurial researchers and governments use scientific secrets as an effective tool to manipulate the beliefs of their competitors and the larger public, and not necessarily to protect the knowledge that they hold.

Type
Research Article
Information
The British Journal for the History of Science , Volume 45 , Issue 2: Special Issue: States of Secrecy , June 2012 , pp. 153 - 164
Copyright
Copyright © British Society for the History of Science 2012

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References

1 Pratchett, Terry, Going Postal, New York: HarperCollins, 2004, p. 128Google Scholar.

2 Hollinger, David, ‘The defense of democracy and Robert K. Merton's formulation of the scientific ethos’, Knowledge and Society (1983) 4, pp. 115Google Scholar.

3 Merton, Robert, ‘Science and technology in a democratic order’, Journal of Legal and Political Sociology (1942) 1, pp. 115126Google Scholar. The quote is from Bernal, J.D., The Social Function of Science, New York: Macmillan, 1939, pp. 150151Google Scholar.

4 Eamon, William, Science and the Secrets of Nature: Books of Secrets in Medieval and Early Modern Culture, Princeton: Princeton University Press, 1994Google Scholar, Chapter 10. McMullin, Ernan, ‘Openness and secrecy in science: some notes on early history’, Science, Technology and Human Values (1985) 10, pp. 1423CrossRefGoogle Scholar.

5 Bush, Vannevar, Science, the Endless Frontier: A Report to the President, Washington: US Government Printing Office, 1945Google Scholar; Alex Wellerstein, ‘Knowledge and the bomb: nuclear secrecy in the United States, 1939–2008’, PhD thesis, Harvard University, 2010, AAT 3435567. See also Michael Aaron Dennis, ‘Reconstructing sociotechnical order: Vannevar Bush and US science policy’, in Sheila Jasanoff (ed.), States of Knowledge: The Co-production of Science and Social Order, London: Routledge, 2004, pp. 225–253.

6 Shapin, Steven, The Scientific Life: A Moral History of a Late Modern Vocation, Chicago: University of Chicago Press, 2008, pp. 113115CrossRefGoogle Scholar.

7 Shils, Edward, The Torment of Secrecy: The Background and Consequences of American Security Policies, Glencoe: The Free Press, 1956, p. 176Google Scholar.

8 Bok, Sissela, Secrets: On the Ethics of Concealment and Revelation, New York: Vintage, 1989, p. 170Google Scholar. For an updated but similar view see Resnik, David, ‘Openness versus secrecy in scientific research’, Episteme (2006) 2, pp. 135147CrossRefGoogle ScholarPubMed.

9 Polányi, Michael, ‘Patent reform’, Review of Economic Studies (1944) 11, pp. 6176CrossRefGoogle Scholar; Johns, Adrian, ‘Intellectual property and the nature of science’, Cultural Studies (2006) 20, pp. 145164CrossRefGoogle Scholar.

10 Cohen, H. Floris, The Scientific Revolution: A Historiographic Inquiry, Chicago: University of Chicago Press, 1994, pp. 200204Google Scholar; de Solla Price, Derek, Science since Babylon, New Haven: Yale University Press, 1961, pp. 117–135Google Scholar; McMullin, op. cit. (4); Hull, David, ‘Openness and secrecy in science: their origins and limitations’, Science, Technology and Human Values (1985) 10, pp. 413CrossRefGoogle Scholar.

11 David, Paul, ‘The historical origins of “Open Science”: an essay on patronage, reputation and common agency contracting in the Scientific Revolution’, Capitalism and Society (2008) 3(2)CrossRefGoogle Scholar, Article 5.

12 Mokyr, Joel, The Gifts of Athena: Historical Origins of the Knowledge Economy, Princeton: Princeton University Press, 2004Google Scholar.

13 For the Netherlands see Davids, Karel, ‘Openness or secrecy? Industrial espionage in the Dutch Republic’, Journal of European Economic History (1995) 24, pp. 333348Google Scholar.

14 See, for example, the bibliography up to 1985 which, apart from general background literature, is divided into two sections: ‘University/Industry relations’ and ‘National Security’. ‘Selected bibliography on openness and secrecy in science and technology’, Science, Technology, and Human Values (1985) 10, pp. 110–114.

15 On the spatial aspects of secrecy see Hannaway, Owen, ‘Laboratory design and the aim of science: Andreas Libavius versus Tycho Brahe’, Isis (1986) 77, pp. 584610CrossRefGoogle Scholar; Shackelford, Jole, ‘Tycho Brahe, laboratory design and the aim of science: reading plans in context’, Isis (1993) 84, pp. 211230Google Scholar; William R. Newman, ‘Alchemical symbolism and concealment: the chemical house of Libavius’, in Peter Galison and Emily Thompson (eds.), The Architecture of Science, Cambridge, MA: MIT Press, 1999, pp. 59–77. See also Jackson, Myles W., Spectrum of Belief: Joseph von Fraunhofer and the Craft of Precision Optics, Cambridge, MA: MIT Press, 2000Google Scholar, Chapter 3.

16 For an early example of such an inversion see Mitroff, Ian I., ‘Norms and counter-norms in a select group of the Apollo moon scientists: a case study of the ambivalence of scientists’, American Sociological Review (1974) 39, pp. 579595CrossRefGoogle Scholar, esp. 592–593.

17 Long, Pamela, Openness, Secrecy, Authorship: Technical Arts and the Culture of Knowledge from Antiquity to the Renaissance, Baltimore; Johns Hopkins University Press, 2001Google Scholar. In a special issue edited by Karel Davids, a number of scholars have elaborated on the tradition of craft secrets. See Karel Davids (ed.), Early Science and Medicine (2005) 10, and especially Davids, Karel, ‘Craft secrecy in Europe in the early modern period: a comparative view’, Early Science and Medicine (2005) 10, pp. 341348CrossRefGoogle Scholar. For a review of early modern secrecy see Macrakis, Kristie, ‘Confessing secrets: secret communication and the origins of modern science’, Intelligence and National Security (2010) 25, pp. 183197CrossRefGoogle Scholar.

18 Epstein, Stephan, ‘Craft guilds, apprenticeship and technological change in preindustrial Europe’, Journal of Economic History (1998) 29, pp. 684713CrossRefGoogle Scholar; Stephan Epstein and Maarten Prak, ‘Introduction: guilds, innovation, and the European economy, 1400–1800’, in Stephan Epstein and Maarten Prak (eds.), Guilds, Innovation, and the European Economy, 1400–1800, Cambridge: Cambridge University Press, 2008, pp. 1–24.

19 Hilaire-Pérez, Liliane and Verna, Catherine, ‘Dissemination of technical knowledge in the Middle Ages and the early modern era: new approaches and methodological issues’, Technology and Culture (2006) 47, pp. 536565CrossRefGoogle Scholar; Biagioli, Mario, ‘Patent republic: specifying inventions, constructing authors and rights’, Social Research (2003) 7, pp. 11291172Google Scholar.

20 Long, op. cit. (17), Chapter 4; Marcus Popplow, ‘Why draw pictures of machines? The social contexts of early modern machine drawings’, in Wolfgang Lefèvre (ed.), Picturing Machines 1400–1700, Cambridge, MA: MIT Press, 2004, pp. 17–48; David, op. cit. (11).

21 Margócsy, Daniel, ‘Advertising cadavers in the Republic of Letters: anatomical publications in early modern Netherlands’, BJHS (2009) 42, pp. 187210CrossRefGoogle ScholarPubMed; Hilaire-Pérez, Liliane and Thébaud-Sorger, Marie, ‘Les techniques dans l'espace public. Publicité des inventions et littérature d'usage au XVIIIe siècle (France, Angleterre)’, Revue de synthèse (2006) 127, pp. 393428CrossRefGoogle Scholar.

22 Long, op. cit. (17), Chapters 6 and 7.

23 Hilaire-Pérez, Liliane, L'invention technique au siècle des Lumières, Paris: Albin Michel, 2000Google Scholar.

24 Habermas, Jürgen, Strukturwandel der Öffentlichkeit: Untersuchungen zu einer Kategorie der Bürgerlichen Gesellschaft, Neuwied: Luchterhand, 1962Google Scholar; translated as The Structural Transformation of the Public Sphere, Cambridge, MA: MIT Press, 1989.

25 For a first assessment see Broman, Thomas, ‘The Habermasian public sphere and science in the Enlightenment’, History of Science (1998) 36, pp. 123149CrossRefGoogle Scholar. For an update, Terrall, Mary, ‘Public science in the Enlightenment’, Modern Intellectual History (2005) 2, pp. 265276CrossRefGoogle Scholar; and Stewart, Larry, ‘Feedback loop: a review essay on the public sphere, pop culture and the early-modern sciences’, Canadian Journal of History (2007) 42, pp. 463483CrossRefGoogle Scholar; Stewart, Larry and Gascoigne, John, The Rise of Public Science: Rhetoric, Technology, and Natural Philosophy in Newtonian Britain, 1660–1750, Cambridge: Cambridge University Press, 1992Google Scholar; Golinski, Jan, Science as Public Culture: Chemistry and Enlightenment in Britain, 1760–1820, Cambridge: Cambridge University Press, 1992Google Scholar; Bensaude-Vincent, Bernadette and Blondel, Christine (eds.), Science and Spectacle in the European Enlightenment, London: Ashgate, 2008Google Scholar; Secord, Anne, ‘Science in the pub: artisan botanists in early nineteenth-century Lancashire’, History of Science (1994) 32, pp. 269315CrossRefGoogle ScholarPubMed; Roche, Daniel, Le siècle des Lumières en province: Académies et académiciens provinciaux, 1680–1789, Paris: Mouton, 1978Google Scholar; Stéphane Van Damme, ‘La sociabilité intellectuelle. Les usages historiographiques d'une notion’, Hypothèses (1997), pp. 121–132; Hochadel, Oliver, Öffentliche Wissenschaft. Elektrizität in der deutschen Aufklärung, Göttingen: Wallstein Verlag, 2003Google Scholar. For a revisionist account see Soll, Jacob, The Information Master: Jean-Baptiste Colbert's Secret State Intelligence System, Ann Arbor: University of Michigan Press, 2009CrossRefGoogle Scholar.

26 Diderot cited in Mason, J.H., The Irresistible Diderot, London: Quartet Books, 1982, p. 5Google Scholar. See also Hilaire-Pérez, Liliane, ‘Diderot's views on artists’ and inventors’ rights: invention, imitation and reputation’, BJHS (2002) 35, pp. 129150CrossRefGoogle Scholar.

27 Horkheimer, Max and Adorno, Theodor W., Dialectic of Enlightenment, Stanford: Stanford University Press, 2002Google Scholar (first published 1944); Foucault, Michel, Surveiller et punir: Naissance de la prison, Paris: Gallimard, 1975Google Scholar.

28 Hilaire-Pérez, op. cit. (26).

29 Walsh, John and Hong, Wei, ‘Secrecy is increasing in step with competition’, Nature (2003) 422, pp. 801802CrossRefGoogle ScholarPubMed.

30 Proctor, Robert and Schiebinger, Londa (eds.), Agnotology: The Making and Unmaking of Ignorance, Stanford: Stanford University Press, 2008Google Scholar.

31 Wright, Susan and Wallace, David, ‘Varieties of secrets and secret varieties: the case of biotechnology’, Politics and the Life Sciences (2000) 19, pp. 3345CrossRefGoogle ScholarPubMed.

32 Waltz, Emily, ‘Under wraps’, Nature Biotechnology (2009) 27, pp. 880882CrossRefGoogle ScholarPubMed.

33 Elliott, Sharon Mollman, ‘The threat from within: trade secret theft by employees’, Nature Biotechnology (2007) 25, pp. 293295CrossRefGoogle ScholarPubMed; Medd, Kerry and Konski, Antoinette, ‘Workplace programs to protect trade secrets’, Nature Biotechnology (2003) 21, pp. 201203CrossRefGoogle ScholarPubMed.

34 Caulfield, T. et al. , ‘Evidence and anecdotes: an analysis of human gene patenting controversies’, Nature Biotechnology (2006) 24, pp. 10911094CrossRefGoogle ScholarPubMed; see also Stephen Hilgartner, ‘The Human Genome Project’, in Sheila Jasanoff et al. (eds.), Handbook of Science and Technology Studies, Thousand Oaks: Sage, 1995, pp. 302–315.

35 Portuondo, María M., Secret Science: Spanish Cosmography and the New World, Chicago: University of Chicago Press, 2009CrossRefGoogle Scholar; Zandvliet, Kees, Mapping for Money: Maps, Plans and Topographic Paintings and Their Role in Dutch Overseas Expansion During the 16th and 17th Centuries, Amsterdam: Batavian Lion, 1998Google Scholar; Schiebinger, Londa and Swan, Claudia (eds.), Colonial Botany: Science, Commerce and Politics in the Early Modern World, Philadelphia: University of Pennsylvania Press, 2005Google Scholar; Reith, Reinhold. ‘Know-how, Technologietransfer und die Arcana artis im Mitteleuropa der frühen Neuzeit’, Early Science and Medicine (2005) 10, pp. 349377CrossRefGoogle Scholar; Harris, John, Industrial Espionage and Technology Transfer: Britain and France in the Eighteenth Century, Aldershot: Ashgate, 2000Google Scholar.

36 Galison, Peter, ‘Removing knowledge’, Critical Inquiry (2004) 31, pp. 195223CrossRefGoogle Scholar.

37 For a recent overview see Limiting Knowledge in a Democracy, a special issue of Social Research (2010) 77.

38 Michael Aaron Dennis, ‘Secrecy and science revisited: from politics to historical practice and back’, in Judith Reppy (ed.), Secrecy and Knowledge Production, Cornell University Peace Studies Program Occasional Paper #23, 1999; Gordin, Michael, Red Cloud at Dawn: Truman, Stalin, and the End of the Atomic Monopoly, New York: Farrar, Straus and Giroux, 2009, p. 30Google Scholar.

39 Norris, Robert S., Racing for the Bomb: General Leslie R. Groves, the Manhattan Project's Indispensable Man, South Royalton: Steerforth Press, 2002Google Scholar, Chapters 12 and 13.

40 Gusterson, Hugh, People of the Bomb: Portraits of America's Nuclear Complex, Minneapolis: University of Minnesota Press, 2000Google Scholar.

41 Information Security Oversight Office, 2009 Cost Report, Washington, DC, 2010.

42 Shorrock, Tim, Spies for Hire: The Secret World of Intelligence Outsourcing, New York: Simon & Schuster, 2008Google Scholar.

43 Steven Aftergood, ‘Government secrecy and knowledge production’, in Judith Reppy, op. cit. (38); Moynihan, Daniel Patrick, Secrecy: The American Experience, New Haven: Yale University Press, 1998Google Scholar; Peter Galison and Rob Moss, Secrecy, Film Premiere: The Sundance Film Festival (2008).

44 For more recent work on science and secrets see the French–Portuguese journal Sigila, devoted to a transdisciplinary study of the secret, which has a 2005 special issue on science and secrets. Just before the current issue went into print, a new collective volume on secrets appeared: Leong, Elaine and Rankin, Alisha (eds.), Secrets and Knowledge in Medicine and Science, 1500–1800, London: Ashgate, 2011Google Scholar.

45 Simmel, Georg, ‘The sociology of secrecy and of secret societies’, American Journal of Sociology (1906) 11, pp. 441498CrossRefGoogle Scholar, esp. 462.

46 Simmel, op. cit. (45), p. 466, also describes the ‘joy of confession’, for instance, ‘which may contain that sense of power in negative and perverted form, as self-abasement and contrition’.

47 See, for instance, Giorgio Vasari's account of Jan van Eyck's sharing of his secret of oil painting. Gotlieb, Marc, ‘The painter's secret: invention and rivalry from Vasari to Balzac’, Art Bulletin (2002) 84, pp. 469490CrossRefGoogle Scholar; Herzfeld, Michael, The Body Impolitic: Artisans and Artifice in the Global Hierarchy of Value, Chicago: University of Chicago Press, 2004Google Scholar, Chapter 4.

48 For these books of secrets see Eamon, op. cit. (4), who is more sensitive than most to the dynamics of secrecy but does not devote much explicit reflection to it.

49 Harley, J.B., ‘Silences and secrecy: the hidden agenda of cartography in early modern Europe’, Imago mundi (1988) 40, pp. 5776CrossRefGoogle Scholar.

50 Shils, op. cit. (7); Bok, op. cit. (8), p. 155; Luhrman, Tanya, ‘The magic of secrecy’, Ethos (1989) 17, pp. 131165CrossRefGoogle Scholar.

51 Cited by Gordin, op. cit. (38), p. 31.

52 Shils, op. cit. (7), p. 221, argued that much of the ‘secret’ information of the government was in fact openly available and was often not worth keeping. It did not justify the ‘tremendous disturbance and degradation that America has suffered from its own zealots of secrecy’.

53 For a similar perspective see Haraszti, Miklós, The Velvet Prison: Artists under State Socialism, New York: Basic Books, 1987Google Scholar.

54 Herzfeld, op. cit. (47), pp. 108–109.

55 For example, in Richardson, Laurel, ‘Secrecy and status: the social construction of forbidden relationships’, American Sociological Review (1988) 53, pp. 209219CrossRefGoogle Scholar. See also the work of Slavoj Žižek for many examples of the complex psychodynamics of secrecy.

56 See, for example, Ku, Agnes, ‘Boundary politics in the public sphere: openness, secrecy, and leak’, Sociological Theory (1998) 16, pp. 172192CrossRefGoogle Scholar. Urban, Hugh, ‘The torment of secrecy: ethical and epistemological problems in the study of esoteric traditions’, History of Religions (1998) 37, 209248CrossRefGoogle Scholar.

57 Weber, Max, From Max Weber: Essays in Sociology, Oxford: Oxford University Press, 1958Google Scholar. Lisa Blank, ‘Two schools for secrecy’, in Jan Goldman and Susan Maret (eds.), Government Secrecy: Classic and Contemporary Readings, Westport: Libraries Unlimited, 2008.

58 Newman, William and Principe, Lawrence, Alchemy Tried in the Fire: Starkey, Boyle, and the Fate of the Helmontian Chymistry, Chicago: Chicago University Press, 2002CrossRefGoogle Scholar.

59 In Eamon, op. cit. (4), p. 345.

60 Luhrman, op. cit. (50).

61 Urban, op. cit. (56).

62 For example, Nummedal, Tara, Alchemy and Authority in the Holy Roman Empire, Chicago: Chicago University Press, 2007CrossRefGoogle Scholar; Snyder, Jon, Dissimulation and the Culture of Secrecy in Early Modern Europe, Berkeley: University of California Press, 2009CrossRefGoogle Scholar; van Houdt, Toon et al. (eds.), On the Edge of Truth and Honesty: Principles and Strategies of Fraud and Deceit in the Early Modern Period, Leiden: Brill, 2002Google Scholar; Rob Iliffe, ‘Lying wonders and juggling tricks: nature and imposture in early modern England’, in J. Force and D. Katz (eds.), Everything Connects: In Conference with Richard H. Popkin. Essays in His Honor, Leiden: Brill, 1998, pp. 183–210.

63 Eamon, op. cit. (4), Chapter 8. For the emergence of the sixteenth- and seventeenth-century metaphor of the natural inquirer as seeking secrets contained inside the naked body of a personified female Nature, see also Katharine Park, ‘From the secrets of women to the secrets of nature’, in Jane Donawerth and Adele Seeff (eds.), Crossing Boundaries: Attending to Early Modern Women, Newark: University of Delaware Press, 2000, pp. 29–47.

64 There is an interesting comparison to be made between the figure of the trickster and contemporary scientists, for instance in their use of technology to outwit nature, in their moral ambiguity, and in their goals, working to further their own interests or for the common good. For the trickster see, for example, Hyde, Lewis, Trickster Makes This World: Mischief, Myth, and Art, New York: Farrar Straus & Giroux, 1998Google Scholar.