Abstract
Photography is generally not recognised as a vibratory medium, yet this chapter will show that the photographic apparatus was originally understood as a medium capable of both receiving and transmitting thought vibrations, which linked the camera directly to the human nervous system. Perhaps the earliest articulation of this theory can be found in British physician Robert Collyer’s 1843 book Psychography, or the Embodiment of Thought, which argued that thought transference, like photography, was based on the visualisation of information: ‘I was obligated to embody the image[s] … in my own mind, before they could be recognized by the recipients; whose brain during the congestive state was so sentient that the impression was conveyed to the mind similar to the photographic process of Daguerre.’1 Collyer also organised public demonstrations of thought transference, during which audience members were asked to sit opposite a somnambulist and gaze into a bowl of molasses that allegedly reflected the mental images of each sitter into the mind of the other (see Figure 8.1).2 The bowl of molasses thus functioned as both a reflecting lens, which focused the sender’s thoughts, and a developing tray, which enabled the visible manifestation of previously invisible images. Collyer’s 1873 book Exalted States of the Nervous System similarly argued that optical information is transmitted from the retina to the brain via the optic nerve in the same way that images are recorded by a photographic apparatus, yet this book emphasised the vibratory nature of these transmissions:
The transmission of an image to the brain through the sense of sight, is effected by the undulations of the ethereal medium, as exemplified in the action of light on the retina. The eye is a perfect camera obscura; the same arrangement of lenses, the identical mode of producing the picture. The choroid coat represents the ground glass on which the picture is focused, from which it is vibrated through the optic nerve to the brain, which is a mass of nervous molecules in their various combinations which produces THE THINKING POWER. THOUGHT is the motion of these particles of nervous matter charged with vitalized electricity.3
Keywords
Photographic Plate Brain Wave Abstract Painting Abstract Photograph Cerebral Radiation
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
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References
- Baraduc, Hippolyte, The Human Soul: Its Movements, Its Lights, and the Iconography of the Fluidic Invisible (Paris: Librairie Internationale de la Pensée Nouvelle, 1913).Google Scholar
- Barrett, William, ‘On Some Phenomena Associated with Abnormal Conditions of Mind’, Proceedings of the Society for Psychical Research 1 (1882–83*): 238–44.Google Scholar
- Barrett, William F., Edmund Gurney and F.W.H. Myers, ‘First Report on Thought-Reading’, Proceedings of the Society for Psychical Research 1 (1882–83*): 13–69.Google Scholar
- Besant, Annie, and C.W. Leadbeater, Thought-Forms (Wheaton, IL: Theosophical Publishing House, 1969).Google Scholar
- Coburn, Alvin Langdon, Alvin Langdon Coburn, Photographer: An Autobiography, edited by Helmut and Alison Gernsheim (London: Faber & Faber, 1966).Google Scholar
- —, ‘The Future of Pictorial Photography’, Photograms of the Year (1916): 23.Google Scholar
- Collyer, Robert, Exalted States of the Nervous System (London: Renshaw, 1873).Google Scholar
- —. Psychography, or the Embodiment of Thought (Philadelphia: Zieber & Co., 1843).Google Scholar
- Feerhow, Friedrich [Friedrich Wehofer], Die Photographie des Gedankens oder Psychographie (Leipzig: Max Altmann, 1913).Google Scholar
- Gernsheim, Helmut, Creative Photography: Aesthetic Trends1839–1960 (London: Faber & Faber, 1962).Google Scholar
- Greenough, Sarah, and Juan Hamilton, Alfred Stieglitz: Photographs and Writings (Washington: National Gallery of Art, 1983).Google Scholar
- Hagen, Wolfgang, Das Radio: Zur Geschichte und Theorie des Hörfunks — Deutschland/ USA (Munich: Wilhelm Fink Verlag, 2005).Google Scholar
- Houston, Edwin J., ‘Cerebral Radiation’, Journal of the Franklin Institute 133(6) (1892): 488–97.CrossRefGoogle Scholar
- Kandinsky, Wassily, Concerning the Spiritual in Art, translated by M.T.H. Sadler (New York: Dover, 1977).Google Scholar
- Knowles, James T., ‘Brain-Waves: A Theory’, Spectator, 30 January 1869: 135–7.Google Scholar
- Krauss, Rolf H., Beyond Light and Shadow: The Role of Photography in Certain Paranormal Phenomena, translated by Timothy Bell and John Gledhill (Tucson: Nazraeli Press, 1995).Google Scholar
- Lodge, Oliver, ‘An Account of Some Experiments in Thought-Transference’, Proceedings of the Society for Psychical Research 2 (1884): 189–200.Google Scholar
- Lyons, Nathan (ed.), Photographers on Photography: A Critical Anthology (Englewood Cliffs, NJ: Prentice-Hall, 1966).Google Scholar
- Moholy-Nagy, Laszlo, Vision in Motion (Chicago: Paul Theobald, 1947).Google Scholar
- Norman, Dorothy, Alfred Stieglitz: An American Seer (Millerton, NY: Aperture, 1973).Google Scholar
- Pound, Ezra, Ezra Pound and the Visual Arts (New York: New Directions, 1980).Google Scholar
- —, ‘Vorticism’, Fortnightly Review 96 (1914): 461–71.Google Scholar
- Ringbom, Sixten, The Sounding Cosmos: A Study in the Spiritualism of Kandinsky and the Genesis of Abstract Painting (Åbo: Åbo Akademi, 1970).Google Scholar
- Shloss, Carol, In Visible Light: Photography and the American Writer 1840–1940 (Oxford: Oxford University Press, 1987).Google Scholar
- Whelan, Richard, Alfred Stieglitz: A Biography (Boston: Little Brown, 1995).Google Scholar
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© Anthony Enns 2013