Abstract
Sometimes the progress in science in better understood within an historical perspective specially for non specialist readers. This is what it is attempted in this chapter. The background both in science and personal of a researcher is very likely to influence reactions to casual observations that turns out to be important. The main example is the author’s first encounter with a sheet of mica with dark tracks and dots. His knowledge of particle physics and crystallography made possible to realize the similitude of some tracks to particle tracks in a cloud chamber and stimulated his curiosity and further research.
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Notes
- 1.
An oxide of iron. It is black in colour. It is magnetic and a conductor of electricity.
- 2.
A calcium rich mineral containing iron, aluminium, silicon, oxygen and some hydrogen.
- 3.
Conference on Nonlinear Coherent Structures in Physics and Biology, Heriot-Watt University, Edinburgh, July 10–14, 1995.
- 4.
- 5.
- 6.
The last two characters are fictional.
- 7.
Quodons in mica: nonlinear localized travelling excitations in crystals Meeting in honour of Prof. Mike Russell, Altea, September 18–21, 2013, http://quodons.webs.upv.es/.
References
Archilla, J.F.R., Cuevas, J., Alba, M.D., Naranjo, M., Trillo, J.M.: Discrete breathers for understanding reconstructive mineral processes at low temperatures. J. Phys. Chem. B 110(47), 24112–24120 (2006)
Archilla, J.F.R., Kosevich, Y.A., Jiménez, N., Sánchez-Morcillo, V.J., GarcÃa-Raffi, L.M.: A supersonic crowdion in mica: ultradiscrete kinks with energy between \(^{40}\)K recoil and transmission sputtering. In: Archilla, J.F.R., Jiménez, N., Sánchez-Morcillo, V.J., GarcÃa-Raffi L.M. (eds.) Quodons in Mica: Nonlinear Localized Travelling Excitations in Crystals. pp. 69–96. Springer (2015)
Armillas, P.: Exploraciones recientes en Teotihuacan. México. Cuad. Americanos 16(4), 121–136 (1944). (In Spanish)
Bednorz, J.G., Muller, K.A.: Possible high-Tc superconductivity in the Ba-La-Cu-O system. Zeitschrift für Physik B-Condensed Matter 64(2), 189–193 (1986)
Bracht, H., Schneider, S., Klug, J.N., Liao, C.Y., Hansen, J.L., Haller, E.E., Larsen, A.N., Bougeard, D., Posselt, M., Wündisch, C.: Interstitial-mediated diffusion in germanium under proton irradiation. Phys. Rev. Lett. 103, 255501 (2009)
Choy, J.H., Kwon, S.J., Park, G.S.: High-T-c superconductors in the two-dimensional limit: [(Py-CnH2n+1)(2)HgI4]-Bi2Sr2Cam-1CumOy (m=1 and 2). Science 280(5369), 1589–1592 (1998)
Craig, R., Mamidzhanian, E., Wolfendale, A.W.: Ancient cosmic ray tracks in mica? Phys. Lett. B 26, 468–470 (1968)
Cruzeiro, L., Eilbeck, J., Marin, J., Russell, F.: Dynamical two electron states in a Hubbard-Davydov model. Eur. Phys. J. A 42(1), 95–102 (2004)
Dubinko, V.I., Guglya, A.G., Donnelly, S.E.: Radiation-induced formation, annealing and ordering of voids in crystals: theory and experiment. Nucl. Instrum. Meth. B 269(14), 1634–1639 (2011)
Fleischer, R.L., Price, P.B., Walker, R.M.: Nuclear Tracks in Solids. University of California Press (1975)
Frondel, C., Ashby, G.E.: Orientated inclusions of magnetite and hematite in muscovite. Am. Min. 22, 104–121 (1937)
Henshilwood, C.S., d’Errico, F., Watts, I.: Engraved ochres from the middle stone age levels at blombos cave. S. Afr. J. Hum. Evol. 57(1), 27–47 (2009)
Hizhnyakov, V., Haas, M., Shelkan, A., Klopov, M.: Theory and molecular dynamics simulations of intrinsic localized modes and defect formation in solids. Phys. Scr. 89, 044, 003(1–5) (2014)
Hugo, D.: Mica mining at harts range, Central Australia, 1880s–1960: a study of ethnicity and the impact of isolation. In: Ph.D. Thesis, Northern Territory University, Darwin (1995). NTC 94.291
Jenkins, F., White, H.: Fundamentals of Optics. MacGraw-Hill, New York (1937)
Joklik, G.F.: The geology and mica-fields of the Harts Range, Central Australia. In: Tech. Rep, Bureau of Mineral Resources, Geology and Geophysics, Canberra, Australia (1955)
Manzanilla, L., López-Luján, L.: Exploraciones en un posible palacio de Teotihuacan: el proyecto Xalla (2000–2001). Mexicon XII I(3), 58–61 (2001). (In Spanish)
MarÃn, J.L., Russell, F.M., Eilbeck, J.C.: Breathers in cuprate-like lattices. Phys. Lett. A 281, 21 (2001)
Martynenko, Y.V., Moskovkin, P.G.: Solitons in radiation physics of crystals. Radiat. Eff. Defects S. 117, 321–328 (1991)
Nordlund, K.: A classical molecular dynamics computer simulation of a collision cascade. http://en.wikipedia.org/wiki/Collision_cascade (2008). Accessed 10 March 2015
Nordlund, K., Ghaly, M., Averback, R.S., Caturla, M., Diaz de la Rubia, T., Tarus, J.: Defect production in collision cascades in elemental semiconductors and fcc metals. Phys. Rev. B 57, 7556–7570 (1998)
Overeijnder, H., Tol, R., Vries, A.D.: Delay times in the sputtering of atoms from alkali-halide crystals during low-energy electron bombardment. Surf. Sci. 90(2), 265–273 (1979)
von Petzinger, G., Nowell, A.: A question of style: reconsidering the stylistic approach to dating Palaeolithic parietal art in France. Antiquity 85, 1165–1183 (2011)
Piercy, G.R., McCargo, M., Brown, F., Davies, J.A.: Experimental evidence for increase of heavy ion ranges by channeling in crystalline structure. Phys. Rev. Lett. 10(9), 399 (1963)
Robinson, M.T., Oen, O.S.: The channeling of energetic atoms in crystal lattices. Appl. Phys. Lett. 2(2), 30–32 (1963)
Rosales de la Rosa, E.A.: Usos, manufactura y distribucin de la mica en Teotihuacan. In: Master’s thesis, Escuela Nacional de AntropologÃa e Historia, México (2004). (In Spanish)
Russell, F.M.: The observation in mica of tracks of charged particles from neutrino interactions. Phys. Lett. 25B, 298–300 (1967)
Russell, F.M.: Tracks in mica caused by electron showers. Nature 216, 907–909 (1967)
Russell, F.M.: Duration of sensitive period for track recording in mica. Nature 217, 51–52 (1968)
Russell, F.M.: Identification and selection criteria for charged lepton tracks in mica. Nucl. Tracks. Rad. Meas. 15, 41–44 (1988)
Russell, F.M.: Positive charge transport in layered crystalline solids. Phys. Lett. A 130, 489–491 (1988)
Russell, F.M.: Energy gain by discrete particle non-linear lattice excitations. In: Carretero-González, R., et al. (eds.) Localized Excitations in Nonlinear Complex Systems, pp. 289–315. Springer, New York (2014)
Russell, F.M., Collins, D.R.: Lattice-solitons and non-linear phenomena in track formation. Rad. Meas. 25, 67–70 (1995)
Russell, F.M., Collins, D.R.: Lattice-solitons in radiation damage. Nucl. Instrum. Meth. B 105, 30–34 (1995)
Russell, F.M., Collins, D.R.: Anharmonic excitations in high Tc materials. Phys. Lett. A 216, 197–202 (1996)
Russell, F.M., Eilbeck, J.C.: Evidence for moving breathers in a layered crystal insulator at 300K. Europhys. Lett. 78, 10004 (2007)
Russell, F.M., Eilbeck, J.C.: Persistent mobile lattice excitations in a crystalline insulator. Discret. Contin. Dyn. Syst. S 4(5), 1267–1285 (2011)
Russell, F.M., Zolotaryuk, Y., Eilbeck, J.C., Dauxois, T.: Moving breathers in a chain of magnetic pendulums. Phys. Rev. B 55, 6304 (1997)
Silsbee, R.H.: Focusing in collision problems in solids. J. Appl. Phys. 28, 1246 (1957)
Steeds, J.W., Russell, F.M., Vine, W.J.: Formation of epidote fossil positron tracks in mica. Optik 92, 149–154 (1993)
Gaisser, T.K., Grillo, A.F.: Energy spectra of neutrino-induced upward muons in underground experiments. Phys. Rev. D 36(9), 2752–2756 (1987)
Toda, M.: Waves in nonlinear lattices. Prog. Theor. Phys. Suppl. 45, 174–200 (1970)
Voyvodic, L., Pickup, E.: Multiple scattering of fast particles in photographic emulsions. Phys. Rev. 85, 91–100 (1952)
Wehner, G.K.: Controlled sputtering of metals by low-energy Hg ions. Phys. Rev. 102, 690–704 (1956)
Zeitler, H.: Mica, Its History. Production and Utilization. D. Jaroslaw, London (1913)
Zolotaryuk, Y., Eilbeck, J.C., Savin, A.V.: Bound states of lattice solitons and their bifurcations. Physica D 108, 81–91 (1997)
Acknowledgments
During the more than 50Â years of these studies many people have assisted and guided me through the mysteries and difficulties of cross-discipline research. Thirty years ago my onetime line manager and friend Prof. Rob W. Witty encouraged this research and arranged financial support that enabled computer studies of mica to be made by Dr. David R. Collins and myself. These studies led to a meeting with Prof. Chris J. Eilbeck that developed into an ongoing collaboration. I will never be able to thank these three people enough for their support, hard work and constructive discussions. With the benefit of hindsight I wish to thank Prof. Sir Arnold Wolfendale and his group for their critical analysis of my first publication relating to muon tracks in mica because it assisted in my identifying the dominant role played by radioactivity of potassium atoms in mica crystals. It was by studying the tracks of the positrons emitted from potassium that opened the door to finding the existence of mobile, highly localised non-linear lattice excitations. My thanks also to John W. Steeds for his skill and persistence that led to the identification of the mineral epidote in some tracks in mica. For her tolerance in responding to my often poorly framed questions I thank Prof. Leonor Cruzeiro. Also, to Prof. Li Yijie for TEM studies of track decorations. I wish to thank my partner Patricia A. Lindsell for her patience and tolerance of my obsession with mica. I am grateful to the then Science and Engineering Research Council for their financial assistance in the uncertain early years of this research.
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Russell, F.M. (2015). I Saw a Crystal: An Historical Account of the Deciphering of the Markings in Mica. In: Archilla, J., Jiménez, N., Sánchez-Morcillo, V., GarcÃa-Raffi, L. (eds) Quodons in Mica. Springer Series in Materials Science, vol 221. Springer, Cham. https://doi.org/10.1007/978-3-319-21045-2_20
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