All Stories

  1. Tsallis Entropy Index q and the Complexity Measure of Seismicity in Natural Time under Time Reversal before the M9 Tohoku Earthquake in 2011
  2. Natural time analysis: On the deadly Mexico M8.2 earthquake on 7 September 2017
  3. Statistical Significance of Earth’s Electric and Magnetic Field Variations Preceding Earthquakes in Greece and Japan Revisited
  4. The Complexity Measures Associated with the Fluctuations of the Entropy in Natural Time before the Deadly México M8.2 Earthquake on 7 September 2017
  5. Micro-scale, mid-scale, and macro-scale in global seismicity identified by empirical mode decomposition and their multifractal characteristics
  6. Comparison of the R-R intervals in ECG and Oximeter signals to be used in complexity measures of Natural Time Analysis
  7. Seismic electric signals in seismic prone areas
  8. M W9 Tohoku earthquake in 2011 in Japan: precursors uncovered by natural time analysis
  9. On the association between the recent episode of the quasi-biennial oscillation and the strong El Niño event
  10. Identifying the occurrence time of an impending major earthquake: a review
  11. Entropy in Natural Time and the Associated Complexity Measures
  12. Entropy in Natural Time and the Associated Complexity Measures
  13. An Application of the Coherent Noise Model for the Prediction of Aftershock Magnitude Time Series
  14. Bulk moduli of PbSxSe1−x, PbSxTe1−x and PbSexTe1−x from the combination of the cBΩ model with the modified Born theory compared to generalized gradient approximation
  15. A tentative model for the explanation of Båth law using the order parameter of seismicity in natural time
  16. Pressure and temperature dependence of the oxygen self-diffusion activation volume in UO2 by a thermodynamical model
  17. On the scaling of the solar incident flux
  18. Identifying the occurrence time of an impending mainshock: a very recent case
  19. Minima of the fluctuations of the order parameter of global seismicity
  20. On the scaling of the solar incident flux
  21. Change ΔS of the entropy in natural time under time reversal: Complexity measures upon change of scale
  22. Spatiotemporal variations of seismicity before major earthquakes in the Japanese area and their relation with the epicentral locations
  23. Study of the temporal correlations in the magnitude time series before major earthquakes in Japan
  24. Statistical Significance of Minimum of the Order Parameter Fluctuations of Seismicity Before Major Earthquakes in Japan
  25. -exponential relaxation of the expected avalanche size in the coherent noise model
  26. Visualization of the significance of Receiver Operating Characteristics based on confidence ellipses
  27. On the anomalous changes of seismicity and geomagnetic field prior to the 2011 9.0 Tohoku earthquake
  28. Minimum of the order parameter fluctuations of seismicity before major earthquakes in Japan
  29. Seismic Electric Signals: An additional fact showing their physical interconnection with seismicity
  30. On the recent seismic activity in North-Eastern Aegean Sea including the Mw5.8 earthquake on 8 January 2013
  31. Order parameter fluctuations in natural time and b-value variation before large earthquakes
  32. Remarkable changes in the distribution of the order parameter of seismicity before mainshocks
  33. Scale-specific order parameter fluctuations of seismicity before mainshocks: Natural time and Detrended Fluctuation Analysis
  34. Predictability of the coherent-noise model and its applications
  35. Natural time analysis of the Centennial Earthquake Catalog
  36. The change of the entropy in natural time under time-reversal in the Olami–Feder–Christensen earthquake model
  37. Scale-specific order parameter fluctuations of seismicity in natural time before mainshocks
  38. Similarity of fluctuations in systems exhibiting Self-Organized Criticality
  39. Magnitude correlations in global seismicity
  40. Natural time analysis of critical phenomena
  41. Identifying long-range correlated signals upon significant periodic data loss
  42. Natural Time Analysis: The New View of Time
  43. Natural Time Analysis of Seismic Electric Signals
  44. Entropy in Natural Time
  45. Natural Time. Background
  46. Natural Time Analysis of Dynamical Models
  47. Introduction to Seismic Electric Signals
  48. Identifying the Occurrence Time of an Impending Mainshock
  49. Natural Time Analysis of Seismicity
  50. Natural Time Analysis of Electrocardiograms
  51. Natural Time Investigation of the Effect of Significant Data Loss on Identifying Seismic Electric Signals
  52. Natural-time analysis of critical phenomena: The case of seismicity
  53. Order parameter fluctuations of seismicity in natural time before and after mainshocks
  54. Effect of significant data loss on identifying electric signals that precede rupture estimated by detrended fluctuation analysis in natural time
  55. Nonextensivity and natural time: The case of seismicity
  56. Multiplicative cascades and seismicity in natural time
  57. Heart rate variability in natural time and 1/f “noise”
  58. Detrended fluctuation analysis of the magnetic and electric field variations that precede rupture
  59. Erratum: Long-range correlations in the electric signals that precede rupture: Further investigations [Phys. Rev. E 67 , 021109 (2003)]
  60. Erratum: Long-range correlations in the electric signals that precede rupture [Phys. Rev. E 66 , 011902 (2002)]
  61. Erratum: Calculation of point defect parameters in diamond [Phys. Rev. B 75 , 172107 (2007)]
  62. Investigation of seismicity after the initiation of a Seismic Electric Signal activity until the main shock
  63. Fluctuations, under time reversal, of the natural time and the entropy distinguish similar looking electric signals of different dynamics
  64. Identifying sudden cardiac death risk and specifying its occurrence time by analyzing electrocardiograms in natural time
  65. Electric pulses some minutes before earthquake occurrences
  66. Stochastic parametric amplification due to higher order correlations: A perturbative approach to non-Abelian effects in time ordering
  67. Attempt to distinguish long-range temporal correlations from the statistics of the increments by natural time analysis
  68. Entropy of seismic electric signals: Analysis in natural time under time reversal
  69. Flux avalanches in Y Ba 2 Cu 3 O 7 − x films and rice piles: Natural time domain analysis
  70. Additional evidence on some relationship between Seismic Electric Signals (SES) and earthquake focal mechanism
  71. On the recent advances in the study of seismic electric signals (VAN method)
  72. Similarity of fluctuations in correlated systems: The case of seismicity
  73. Comment on ‘Electrical conductivity and crustal structure beneath the central Hellenides around the Gulf of Corinth (Greece) and their relationship with the seismotectonics’ by Pham et al.
  74. Time-difference between the electric field components of signals prior to major earthquakes
  75. Origin of the Usefulness of the Natural-Time Representation of Complex Time Series
  76. Some properties of the entropy in the natural time
  77. Natural entropy fluctuations discriminate similar-looking electric signals emitted from systems of different dynamics
  78. Entropy in the natural time domain
  79. On the difference in the rise times of the two SES electric field components
  80. A plausible universal behaviour of earthquakes in the natural time-domain
  81. A plausible explanation of the b-value in the Gutenberg-Richter law from first Principles
  82. Electric Fields that “Arrive” before the Time Derivative of the Magnetic Field prior to Major Earthquakes
  83. Attempt to distinguish electric signals of a dichotomous nature
  84. Long-range correlations in the electric signals that precede rupture: Further investigations
  85. Long-range correlations in the electric signals that precede rupture
  86. Magnetic field near the outcrop of an almost horizontal conductive sheet
  87. Magnetic field variations associated with SES
  88. Electric Polarization Related to Defects and Transmission of the Related Signals
  89. Magnetic field variations associated with the SES before the 6.6 Grevena-Kozani earthquake
  90. Numerical model of the selectivity effect and the ΔV/L criterion
  91. Shoulder at the 887 cm−1 infrared band in neutron irradiated Si
  92. A percolation model for the explanation of fractal paraconductivity behavior in a YBaCuO sample
  93. Numerical model of the selectivity effect and the ΔV/L criterion
  94. Interconnection of defect parameters and stress-induced electric signals in ionic crystals
  95. A review on the statistical significance of VAN predictions
  96. Prediction of the 6.6 Grevena-Kozani earthquake of May 13, 1995
  97. Infrared studies of defects formed during postirradiation anneals of Czochralski silicon
  98. Application of the magnetic-electric two-dimensional Euclidean group to the case of anyons
  99. Claims of Success in Using Geoelectrical Precursors to Predict Earthquakes Are Criticized—and Defended
  100. Transmission of stress induced electric signals in dielectric media
  101. Coherent states for the two-dimensional magnetic-electric Euclidean group MEE(2)
  102. Isochronal Annealing Studies of the Oxygen–Vacancy Centres in Neutron-Irradiated Si
  103. Isochronal Annealing Studies of the Oxygen–Vacancy Centres in Neutron-Irradiated Si
  104. An IR Study of the Annealing Behaviour of A-Center in Silicon
  105. Origin of infrared bands in neutron-irradiated silicon
  106. Magnetic-electric two-dimensional Euclidean group
  107. Reply to “Rebuttal to Reply by Varotsos and Lazaridou: Towards plainly successful prediction,” by Paul W. Burton
  108. Precursor defect to the vacancy-dioxygen center in Si
  109. A calculation of the surface charges and the electric field outside steady current carrying conductors
  110. An Isochronal Annealing Study of the Kinetics of VO and V02 Defects in Neutron Irradiated SI
  111. New Infrared Bands in Neutron-Irradiated Si
  112. Correlations of vibrational frequencies with VO/sub 4/ defect in irradiated silicon
  113. Infrared bands association with multivacancy-oxygen defects in silicon