Abstract
Indices of creative productivity introduced by C. Murrey were used to verify S. Ertel’s conclusion about a global increase in creative productivity during the prolonged minimum of solar activity in 1640–1710. It was found that these indices for mathematicians, philosophers, and scientists increase in the Maunder era by factor of 1.6 in comparison with intervals of the same length before and after the minimum. A similar effect was obtained for mathematicians and philosophers for five earlier equitype minima in total (an increase by a factor of 1.9). The regularity that is revealed is confirmed by the fact that the most important achievements of high-ranking mathematicians and philosophers during the whole time period (2300 years) considered in this study fall on epochs of reduced levels of solar activity. The rise in the probability of the generation of rational ideas during grand minima is reflected also in the fact that they precede the appearance of written language and farming. Ultra-low-frequency electromagnetic fields appear to serve as a physical agent stimulating the activity of the brain’s left hemisphere during the epochs of minima.
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Aptikaeva, O.I., Gamburtsev, A.G., Dmitrieva, T.B., and Martyushov, A.N., Specific Features of the Dynamics of Times Series of Emergency Hospitalizations by Psychiatric Ambulance in Moscow and Its Possible Relation to External Forcings, Geofiz. Protsessy Biosfera, 2008, vol. 7, no. 4, pp. 30–43.
Barsukov, O.M., On the Problem of Synchronization of Natural Phenomena, Geofiz. Protsessy Biosfera, 2006, vol. 5, no. 2, pp. 18–26.
Breus, T.K., Gurfinkel’, Yu.I., Zenchenko, T.A., and Ozheredov, V.A., Comparative Analysis of the Sensitivity of Various Indicators of Vascular Tonus to Meteorological and Geomagnetic Factors, Geofiz. Protsessy Biosfera, 2010, vol. 9, no. 2, pp. 23–36.
Chizhevskii, A.L., Modification of Nervous Excitability under the influence of Perturbation in the External Physicochemical Environment, Russ.-Nemets. Med. Zh., 1928, no. 8, pp. 432–441.
Dergachev, V.A. and Chistyakov, V.F., Effect of the 2400-Year Solar-Climatic Cycle on Human Life, Biofizika, 1998, vol. 43, no. 5, pp. 896–901.
D’yakonov, I.M., Neronova, V.D., and Sventsitskaya, I.S., Istoriya Drevnego mira (History of Ancient World), Moscow: Gl. redaktsiya vostoch. lit., 1982, vol. 1.
Encyclopedia of Dates and Events, Pascoe, L.C., et al., Eds., Hodder and Stoughton, 1991.
Ertel, S., Where do Kroeber’s Spurts of Cultural Creativity Come From?, Invited Lecture at 26th Int. Cong. of Psychology, Montreal, 1996.
Ertel’, S., Cosmophysical Correlations of Creativity in the History of Culture, Biofizika, 1998, vol. 43, no. 4, pp. 736–741.
Friedrich, J., Geschichte der Schrift (History of Writing), Heidelberg: Carl Winter Univ., 1966.
Gamburtsev, A.G., The Man in Three Environments: Some Preliminary Results of Comprehensive Investigations, Geofiz. Protsessy Biosfera, 2008, vol. 7, no. 1, pp. 53–75.
Grigor’ev, P.E., Ragul’skaya, M.V., Kutsevol, I.B., Vaiserman, A.M., and Gorgo, Yu.P., Types of the Reaction of Elderly Cardiovascular and Vegetative Systems to Quasiperiodic Heliogeophysical Events, in Probl. Stareniya Dolgoletiya, 2007, vol. 16, no. 4, pp. 311–320.
Grigor’ev, P.E., Relation of Psychic Maladjustment with Heliogeophysical Factors, Geofiz. Protsessy Biosfera, 2008a, vol. 7, no. 2, pp. 67–71.
Grigor’ev, P.E., The Contribution of Heliogeophysical Factors to the Dynamics of Psychic States, Geofiz. Protsessy Biosfera, 2008b, vol. 7, no. 3, pp. 63–69.
Grigor’ev, P.E., Khorseva, N.I., Grigal, P.P., Sergachev, I.A., Podznoeva, Z.L., and Khramov, V.V., Creation of an Information Technology for Studying the Dependence of the Functional State of Man on Heliogeophysical Factors, Geofiz. Protsessy Biosfera, 2010, vol. 9, no. 1, pp. 63–73.
Hadamard, J., Psychology of Invention in the Mathematical Field, New York: Dover, 1965.
Khalberg, F., Kornelissen, G., Biti, L.A., Otsuka, K., Vatanabe, E., Sotern, R.B., Katinas, G.S., Chaplitski, E., Sanchez de la Pena, S., Ulmer, V., Revilla, M., Zeeman, M., Shvartskopff, O., Singh, R.B., Research Group “Feniks”, Working Group of the BIO-KOS Project, Progress in Chronomics in 2006–2008. Vol. 2, Circadian and Circasemiseptan Rhythms, Geofiz. Protsessy Biosfera, 2009d, vol. 8, no. 4, pp. 47–60.
Khalberg, F., Kornelissen, G., Biti, L.A., Otsuka, K., Vatanabe, E., Sotern, R.B., Katinas, G.S., and Chaplitski, E., Sanchez de la Pena, S., Ulmer V., Revilla, M., Zeeman M., Shvartskopff O., Singh R.B., Research Group “Feniks”, Working Group of the BIOKOS Project, Progress in Chronomics in 2006–2008. Vol. 1, Consistency between Biospheric and Heliogeophysical Rhythms, Geofiz. Protsessy Biosfera, 2009c, vol. 8, no. 2, pp. 43–74.
Khalberg, F., Kornelissen, G., Sotern, R.B., and Shvartskopff, O., BEL-Cycles: Neither “Brukner” nor “Brikner”, But a Newly Requisite Brückner, Istor. Nauk Zemle, 2009a, vol. 2, no. 1, pp. 65–71.
Khalberg, F., Kornelissen, G., Sotern, R.B., Chaplitski, E., and Shvartskopff, O., 35-Year Climatic Cycle in Heliogeophysics, Psychophysiology, Military Politics, and Economics, Geofiz. Protsessy Biosfera, 2009b, vol. 8, no. 2, pp. 13–42.
Khalberg, F. and Shvartskopff, O., The Monitoring of the State of Human Vascular System for Solving Problems of Physics, Universal Personalized and Public Medical Care Taking Account of Space Weather, Nauka Tekhnol. Razrab., 2010, vol. 89, no. 1, pp. 13–35.
Kleimenova, N.G. and Kozyreva, O.V., Magnetic Storms and Infarcts: Whether Storms Are Always Dangerous?, Geofiz. Protsessy Biosfera, 2008, vol. 7, no. 3, pp. 5–24.
Klyukin, L.M., A Technique for Using Contact Volume Tomography for Early Diagnostics, Screening, Identification, Monitoring of Population Diseases, Nauka Tekhnol. Razrab., 2010, vol. 89, no. 2, pp. 14–30.
Knorozov, Yu.V., Notes on the Mayan Calendar, Sov. Etnogr., 1971, no. 2, pp. 77–86.
Kornelissen, G., The Achievements of Frants Khalberg, the Founder of Chronobiology and Chronomics, Geofiz. Protsessy Biosfera, 2009, vol. 8, no. 2, pp. 75–84.
Kreber, A.L., Izbrannoe: priroda kul’tury (The Nature of Culture: Selected Works), Moscow: ROSSPEN, 2004.
Lamberg-Karlovski, K. and Sablov, D., Drevnie tsivilizatsii. Blizhnii Vostok i Mezoamerika (Ancient Civilizations. The Near East and Mesoamerica), Moscow: Nauka, 1992.
Lednev, V.V., Belova, N.A., Rozhdestvenskaya, Z.E., and Tiras, Kh.P., Biological Effects of Weak Variables of Magnetic Fields and Biological Precursors of Earthquakes, Geofiz. Protsessy Biosfera, 2003, vol. 2, no. 1, pp. 7–18.
Martynyuk, V.S., Vladimirskii, B.M., and Temur’yants, N.A., Biological Rhytms and Electromagnetic Fields of the Environment, Geofiz. Protsessy Biosfera, 2006, vol. 5, no. 1, pp. 5–23.
Murray, Ch., Human Accomplishment: The Pursuit of Excellence in the Arts and Sciences, 800 B.C. to 1950, New York: Harper Collins, 2003.
Nagovitsyn, Yu.A., Ivanov, V.G., Miletsky, E.V., and Volobuev, D.M., ESAI Database and Some Properties of Solar Activity in the Past, Sol. Phys., 2004, vol. 224, no. 1/2, pp. 103–112.
Nazaretyan, A.P., Tsivilizatsionnye krizisy v kontekste Universal’noi istorii (Civilization Crises in the Context of Universal History), Moscow: Mir, 2004.
Ozheredov, V.A. and Breus, T.K., New Approaches to Statistical Analysis of Long-Term Series of Observational Data on Heliogeomagnetic Activity and Medical and Biological Response to It, Geofiz. Protsessy Biosfera, 2008, vol. 7, no. 1, pp. 7–31.
Pobachenko, S.V., Kolesnik, A.G., Borodin, A.S., and Kalyuzhin, V.V., Contingency of Parameters of the EEG of Human Brain and Electromagnetic Fields of the Schumann Resonator, Biofizika, 2006, vol. 51, no. 3, pp. 534–538.
Shnirel’man, V.A., Vozniknovenie proizvodyashchego khozyaistva (The Emergence of Productive Economy), Moscow: Nauka, 1989.
Sidorin, A.Ya., Studies of the Effect of Heliogeophysical Processes on the Biosphere in the Works of Frants Khalberg, Geofiz. Protsessy Biosfera, 2009, vol. 8, no. 2, pp. 6–12.
Tvist, K., Vsemirnaya istoriya: khroniki vazhneishikh sobytii (The World History: Chronology of Key Events), Moscow: Astrel’, 2004.
Usoskin, G., Solanki, S.K., and Kovaltsov, G.A., Grand Minima and Maxima of Solar Activity: New Observational Constraints, Astron. Astrophys., 2007, vol. 471, pp. 301–309.
Van der Varden, B.L., Science Awakening, New York: Oxford Univ. Press, 1961.
Vinogradov, E.S., Change in the Frequency of Birth Prodigies in Different Phases of the 11-Year Solar Cycle, Vopr. Psikhol., 1991, no. 6, pp. 96–102.
Vladimirskii, B.M., Temur’yants, N.A., and Martynyuk, V.S., Kosmicheskaya pogoda i nasha zhizn’ (Space Weather and Our Life), Moscow: Vek 2, 2004.
Vladimirskii, B.M. and Temur’yants, N.A., Vliyanie solnechnoi aktivnosti na biosferu-noosferu (Solar Activity Effect on the Biosphere-Noosphere), Moscow: MNEPU, 2000.
Vladimirskii, B.M., Electromagnetic Fields of the Environment, “Biolocation” and Homing, Geofiz. Protsessy Biosfera, 2006, vol. 5, no. 2, pp. 5–17.
Vladimirskii, B.M., Space Weather and Global Spurts of Creativity, in Noospherology: Science, Education, and Practice, Simferopol’: Tavricheskii Universitet im. V.I. Vernadskogo, 2008, pp. 306–340.
Zaitsev, A.I., Kul’turnyi perevod v Drevnei Gretsii VIII-V do n. e. (Cultural Translation in Ancient Greece, 8th to 5th Centuries BC), St. Petersburg: SPbGU, 2001.
Zenchenko, T.A., Poskotinova, L.V., Rekhtina, A.G., and Zaslavskaya, R.M., The Relation of Parameters of Blood Flow Oscillations in the Microcirculatory Channel with Pc3 Geomagnetic Pulsations, Biofizika, 2010, no. 4.
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Original Russian Text © B.M. Vladimirsky, 2011, published in Geofizicheskie Protsessy i Biosfera, 2011, No. 4, pp. 30–43.
In memory of Valeriya Alekseevna Troitskaya, an outstanding geophysicist who has made a significant contribution to the advancement of the science of solar-terrestrial relationships
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Vladimirsky, B.M. Grand minima of solar activity and sociodynamics of culture. Izv. Atmos. Ocean. Phys. 48, 738–746 (2012). https://doi.org/10.1134/S0001433812070110
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DOI: https://doi.org/10.1134/S0001433812070110