PACS numbers

87.10.−e General theory and mathematical aspects 87.18.Yt Circadian rhythms 87.50.−a Effects of electromagnetic and acoustic fields on biological systems 94.30.Va Magnetosphere interactions
  1. O.V. Maslennikov, V.I. Nekorkin “Adaptive dynamical networks60 694–704 (2017)
    05.45.−a, 05.45.Xt, 87.10.−e (all)
  2. V.L. Popov, A.E. Filippov, S.N. Gorb “Biological microstructures with high adhesion and friction. Numerical approach59 829–845 (2016)
    68.35.Np, 87.10.−e, 87.85.jf (all)
  3. P.N. Zakharov, V.K. Arzhanik et alMicrotubule: a dynamically unstable stochastic phase switching polymer59 773–786 (2016)
    87.10.−e, 87.16.−b, 87.16.A− (all)
  4. T.K. Breus, V.N. Binhi, A.A. Petrukovich “Magnetic factor of the solar terrestrial relations and its impact on the human body: physical problems and prospects for research59 502–510 (2016)
    87.10.−e, 87.18.Yt, 87.50.−a, 94.30.Va (all)
  5. Yu.M. Romanovsky, V.P. Trifonenkov “Energetics and stochastic dynamics of intraneuron transport59 121–140 (2016)
    87.10.−e, 87.16.Nn, 87.19.L− (all)
  6. S.V. Bulanov, Ja.J. Wilkens et alLaser ion acceleration for hadron therapy57 1149–1179 (2014)
    41.75.Jv, 52.38.Kd, 87.50.−a, 87.53.Jw, 87.55.−x, 87.56.−v (all)
  7. V.V. Klinshov, V.I. Nekorkin “Synchronization of delay-coupled oscillator networks56 1217–1229 (2013)
    05.45.−a, 05.45.Xt, 87.10.−e (all)
  8. L.I. Krishtalik “Proteins as specific polar media for charge transfer processes55 1192–1213 (2012)
    87.10.−e, 87.14.E−, 87.15.−v (all)
  9. Yu.M. Romanovsky, A.N. Tikhonov “Molecular energy transducers of the living cell. Proton ATP synthase: a rotating molecular motor53 893–914 (2010)
    87.10.−e, 87.15.−v, 87.16.−b (all)
  10. V.M. Byakov, S.V. Stepanov “The mechanism for the primary biological effects of ionizing radiation49 469–487 (2006)
    82.39.−k, 87.50.−a, 87.50.Gi, 87.54.Br (all)
  11. V.N. Bingi, A.V. Savin “Reply to A Yu Grosberg’s letter to the Physics-Uspekhi Editorial Board48 537–538 (2005)
  12. N.G. Ptitsyna, G. Villoresi et alNatural and man-made low-frequency magnetic fields as a potential health hazard41 687–709 (1998)
    87.40.+w, 87.50.−a
  13. V.V. Denisenko, N.V. Erkaev et alMathematical modeling of large-scale processes in the earth’s magnetosphere36 (1) 25–26 (1993)
    94.30.Va, 96.60.Vg,, 94.30.ct, 94.30.Kq (all)
  14. I.M. Podgornyi, É.M. Dubinin, Yu.N. Potanin “Investigation of Precipitation of Particles and Formation of a Radiation Belt in Terrella Experiments17 442–443 (1974)
    94.30.Xy,, 94.30.Hn, 94.30.Va, 96.60.Vg (all)
  15. S.I. Syrovatskii “Current Sheets in Cosmic and Laboratory Plasmas14 533–534 (1972)
    94.30.Kq, 94.30.cq, 94.30.Va, 96.60.qe (all)
  16. A.V. Gurevich, E.E. Tsedilina, V.P. Shcherbakov “Resonant Protons and the Electric Field in the Earth’s Magnetosphere14 363–364 (1971)
    94.30.Kq, 94.30.Lr, 94.30.Va, 94.30.Ny, (all)
  17. I.M. Podgornyi, R.Z. Sagdeev “Physics of interplanetary plasma and laboratory experiments12 445–462 (1970)
    94.30.cq, 94.30.Va (all)
  18. G.A. Skuridin, V.D. Pletnev “Principal hypotheses concerning the origin of the Earth's radiation belts8 224–252 (1965)
    94.30.Xy, 94.30.Hn, 94.30.Va (all)
  19. S.N. Vernov, A.E. Chudakov “Investigations of cosmic radiation and of the terrestrial corpuscular radiation by means of rockets and satellites3 230–250 (1960)
    95.40.+s, 96.50.S−, 94.30.Va, 94.80.+g (all)
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