Non-force electromagnetic fields

Chandrasekhar S. On force-free magnetic fields. Proceedings of the National Academy of Sciences of the United States of America. 1956; 42: 1–5. PubMed: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC534220/

Van Vleuten A. Over de dagelijsche variatie van het Ardmagnetisme. Koninklijk Ned. Meteor. Instit. No. 102, Utrecht. 1917; 5–30.

Benkova NP. Solar Diurnal variations of Terrestrial Magnetism. The Hydrometerological service of USSR Transactions of Scientific Institutions. Terrestrial Magnetism. Series VI. L;M.: 1941; 75. (In Russian)

Aksenov VV. Toroidal field in the Earth’s atmosphere. Novosibirsk. Russian Academy of Science Siberian Branch. 1997; 133. (In Russian)

Parker EN. Cosmical Magnetic Fields. Clarendon Press Oxford. 1997; 1: 608; 2; 479.

Moffat HK. Generation of magnetic field in conducting medium. Cambridge University Press. 1978; 339.

Aksenov VV. On three Kinds of Electrodynamics on the Earth and in Space. The Way of Science. 2017; 7: 8–15. (In Russian)

Larmor J. How could a rotating body such as the Sun become a magnet. Rep Brit Assoc SCI. 1919; 60: 159.

Aksenov VV. The Toroidal Decomposition of the Vector Potential of a Magnetic Field and its Applications. Moscow University Physics Bulletin Physics of Earth, Atmosphere and Hydrosphere. 2015; 70: 558–565.

Aksenov VV. The Earth’s Electromagnetic Field. Novosibirsk. Inst of Math and Math. Geophysics. Publ. 2010; 268. (In Russian)

Aksenov VV. On mutual generation of magnetic fields in tokamaks and its suppression. Russian Physics Journal, 2018; 61: 171-172.

Aksenov VV. Non-Force and Force Electromagnetic Fields. Russian Physics J. 2016; 59: 319-327.

Aksenov VV. Adaptation of Maxwell-Parker-Moffat electrodynamics to electromagnetic Fields Observed in the Earth’s Atmosphere. Russian Physics J. 2017; 60: 389-98.

Stratton J. Ad. Electromagnetic Theory. Mc. Graw-Hill Book Company. New York and London. 1941: 539.

Marsh GE. Force-Free Magnetic Fields: Solution, Topology and Applications. Singapore: World Scientific Publishing Go PTL Ltd. 1966; 157.

Cowling TG. Mgnetohydrodynamics. John Willey and Sons, New York. 1957; 139.

Zeldovich Yak., Rusmikin A., Socoloff D. Magnetic field in astrophysics. Gordon and Breach, New York. 1983; 483.

Alfven H. Cosmical Electrodynamics. Oxford: University Press. 1950; 240.

Korn GA, Korn TM. Mathematical Handbook for Scientist and Engineers Definitions, Theorems and Formulas for Reference and Review. McGaw-Hill Book Company, INC, New York Toronto London. 1961; 720.

Tikhonov AN, Samarsky A.A. Equations of Mathematical Physics. M.: Nauka. 1972; 735. (In Russian)

Gauss KF. Allgemaine Theorie des Erdmagnetismus. Werke. 1838-1839, T.5, S. 119.

Gauss KF. Allgemaine Lehrsatze in Beziehungauf die in verkehrten verhaltnisse des Quadrats der Entferung wirkenden Anziehung und Abstossungkrafte. Werke. 1839-1840, T.4, S. 195.

Schmidt A. Besitzt die tagliche erdmagnetische Schwankung in der Erdoberflache ein Potential. Physik. Zeitschrift. 1918; 19: 349–355.

Aksenov VV. On Some Solenoidal Vector Fields in Spherical Domains. Differential Equations. 2012; 48: 1042-1045.

Aksenov VV. On methodology and methods of Applied Geomagnetism. Geology and Rasvedka. 2016; 6: 50–55. (In Russian)

Parkinson WD. Introduction to Geomagnetism. Scottish Academic Press. Edinburg and London. 1983; 520.

Yanovsky BM. Telluric Magnetism. Leningrad: GITTL. 1978. Parts I,II; 591. (In Russian)

Gauss RF. Isbrannie trudi po semnomu magnetismu. L: Izd AN SSSR. 1952; 343. (In Russian)

Chetaev DN. O structure polya korotkoperiodicheskoy geomagnitnoy variazii and magnitotelluricheskom sondirovanii. Physics of the Earth.1970; 2: 52–55. (In Russian)

Sokolov DD, Stepanov PA, Frik PG. Dinamo na puti ot astrophisicheskih modeley k laboratornomu experimentu. UFN. 214. T. 184. No.3. S. 313–335. (In Russian)

Aksenov VV. Modeling of a Magnetic Field of Sources Localized within a sphere and beyond. Mathematical Modeling. 2015; 27: 111–126. (In Russian)

Aksenov VV. The Foundations of Geomagnetism. Bulletin of the Novosibirsk Computing Center. Series: Mathematical Modeling in Geophysics. Special Issue: 15. 2012; 100. (In Russian)

Stern DP. Representation of magnetic field in Space. Rev Geophys. 1976: 199-214.

Tikhonov AN, Ya AB. Metody resheniya nekorreknih sadach. Nauka. 1974; 223. (In Russian)

Aksenov VV. Ob Istochnike Glavnogo Geomagnitnogo Polya. Part 2. Geologiya and exploration. 2012; 5: 54-60. (In Russian)

Moore EH. General analysis. Memoirs Phi Soc. 1935; 1: 1-231.

Penrose R. A Generalized inverse for matrices. Proc Camb Phil Soc. 1955; 51: 406–413.

Geller RJ, Jackson DD, Kagan YY, Mulagria F. Earthquakes Cannot be Predicted. Science. 1997; 1616–1617.

Alekseev AS, Aksenov VV. Ob electricheskom pole v ochagovoi sone semletryasenii. DAN. 2003: T. 392. No. 1, 106–110. (In Russian)

Aksenov VV. O modelirovanii and assessment electromagnitnih and teplovih polei kak predvestnikov semletryasenii. Geofisisheskii J. 2003; 25: 20–25. (In Kiev)

Rabotnov JH, Lomakin EB. Sootnosheniya teorii uprugosti dlya isotropnogo rasnomodulnogo tela. AN SSSR. MTT. 1978; 6: 29–34. (In Russian)

Lyahovskii VA, Myasnikov BG. O povedenii uprugoi sredi s micro-narusheniyami. Phisika Semli. 1984; 10: 71–75. (In Russian)

Ustundag B, Ozerden S. Erthquake prediction using a new monopolar electric field probe. European Seismological Congress (ESC 2002). Genoa, 2002.

Aaronov V, Bohm D. Significance of Electromagnetic Potentials in the Quantum Theory. Phys Rev. 1959; 115: 485–491.

Chirkov AG, Ageev AH. O prirode effecta Aaronova-Bohma. JTF. 2001;T. 71. Vip. 2. 16–22. (In Russian)

Azizov EA. Tokamaks from A.D. Sakharov to nowadays (the 60 year tokamak history). UFN. 2012; 182: 202–215. (In Russian)

Dyrdin VV, Elkin IS, Lozhkin KV, Sosnov FS. Magnitnoe pole tokov smeshcheniya. Vestnik of Kuzbass State Technicfl University. 2004; 5: 36–37. (In Russian)

Bullard EC. The magnetic Field within the Earth. Proc Roy Soc Lond. 1949; 433–453.

Rikitaki T. Electromagnetism and Vnutrennee stroenie Zemli. M.: Nauka. 1968; 236. (In Russian)