In Refereed International Journals

[1] A. Anastasiadis and L. Vlahos, 1991. Particle acceleration inside a gas of shock waves. Astronomy & Astrophysics, 245, 271-278. [pdf]
[2] A. Anastasiadis and L. Vlahos, 1993. Particle acceleration by multiple shocks at the hot spots of extragalactic radio source. Astronomy & Astrophysics, 275, 427-432. [pdf]
[3] A. Anastasiadis and L. Vlahos, 1994. Particle acceleration in an evolving active region by an ensemble of shock waves. Astrophysical Journal, 428, 819-826. [pdf]
[4] H. Varvoglis and A. Anastasiadis, 1996. Transport in Hamiltonian systems and its relationship to the Lyapunov time. Astronomical Journal, 111(4), 1718- 1720. [pdf]
[5] A. Anastasiadis, K. Kleidis and H. Varvoglis, 1997. Kinetic description of particle interaction with a gravitational wave. General Relativity and Gravitation, 29 (vol.4), 499-514. [pdf]
[6] A. Anastasiadis, L. Vlahos and M. K. Georgoulis, 1997. Electron acceleration by random DC electric fields. Astrophysical Journal, 489, 367-374. [pdf]
[7] H. Isliker, A. Anastasiadis, D. Vassiliadis and L. Vlahos, 1998. Solar flare cellular automata interpreted as discretized MHD equations. Astronomy & Astrophysics, 335, 1085-1092. [pdf]
[8] D. Vassiliadis, A. Anastasiadis, M. Georgoulis and L. Vlahos, 1998. Derivation of solar flare cellular automata models from a subset of the magnetohydrodynamic equations. Astrophysial Journal Letters, 509, L53-L56. [pdf]
[9] A. Anastasiadis, 1999. Electron acceleration in solar flares by spatially random DC electric fields. Physics & Chemistry of the Earth, 24, 269-274. [pdf]
[10] K. Tsiganis, A. Anastasiadis and H. Varvoglis, 1999. On the relation between maximal LCN's and the width of the stochastic layer in a driven pendulum. Journal of Physics A., 32, 431-442. [pdf]
[11] K. Manolakou, A. Anastasiadis and L. Vlahos, 1999. Particle acceleration and radiation in the turbulent flow of a jet. Astronomy & Astrophysics , 345, 653-662. [pdf]
[12] K. Tsiganis, A. Anastasiadis and H. Varvoglis, 2000. Dimensionality differences between sticky and non-sticky chaotic trajectory segments in a 3-D Hamiltonian system. Chaos, Solitons & Fractals, 11(14), 2281-2292. [pdf]
[13] H. Isliker, A. Anastasiadis and L. Vlahos, 2000. MHD consistent cellular automata (CA) models I: Basic Features. Astronomy & Astrophysics, 363, 1134-1144. [pdf]
[14] H. Isliker, A. Anastasiadis and L. Vlahos, 2001. MHD consistent cellular automata (CA) models II: Applications to solar flares. Astronomy & Astrophysics, 377, 1068-1080, doi: 10.1051/0004-6361:20011100. [pdf]
[15] A. Anastasiadis, 2002. Acceleration of solar energetic particles: The case of solar flares. Journal of Atmospheric and Solar-Terrestrial Physics,64(5-6), 481-488. [pdf]
[16] A. Anastasiadis, C. Gontikakis, N. Vilmer and L. Vlahos, 2004. Electron acceleration and radiation in evolving complex active regions. Astronomy & Astrophysics, 422, 323-330, doi:10.1051/0004-6361:20035712. [pdf]
[17] A. Anastasiadis, I. A. Daglis and C. Tsironis, 2004. Ion heating in an auroral potential structure. Astronomy & Astrophysics, 419, 793-799, doi:10.1051/0004-6361:20034513. [pdf]
[18] C. Efthymiopoulos, C. Gontikakis and A. Anastasiadis, 2005. Particle dynamics in 3-D reconnecting current sheets in the solar atmosphere. Astronomy & Astrophysics, 443, 663-678, doi: 10.1051/0004-6361:20042288. [pdf]
[19] C. Gontikakis, C. Efthymiopoulos and A. Anastasiadis, 2006. Regular and chaotic dynamics in 3-D reconnecting current sheets. Monthly Notices Royal Astronomical Society, 368(1), 293-304, doi:10.1111/j.1365-2966.2006.10103.x. [pdf]
[20] C. Dauphin, N. Vilmer and A. Anastasiadis, 2007. Particle acceleration and radiation in flaring complex solar active regions modelled by cellular automata. Astronomy & Astrophysics, 468, 273-288, doi: 10.1051/0004-6361:20065131.[pdf]
[21] C. Gontikakis, A. Anastasiadis and C. Efthymiopoulos, 2007.Particle distributions and X-ray spectra in single or multiple solar current sheets. Monthly Notices Royal Astronomical Society, 378, 1019-1030, doi:10.1111/j.1365-2966.2007.11834.x. [pdf]
[22] A. Anastasiadis, C. Gontikakis and C. Efthymiopoulos, 2008. Particle interactions with single or multiple 3D reconnecting current sheets. Solar Physics, 253, 199-214, doi:10.1007/s11207-008-9234-4. [pdf]
[23] G. Balasis, I. A. Daglis, C. Papadimitriou, M. Kalimeri, A. Anastasiadis and K. Eftaxias, 2008.Dynamical complexity in Dst time series using non-extensive Tsallis entropy. Geophysical Research Letters, 35, L14102, doi:10.1029/2008GL034743. [pdf]
[24] S. J. Schwartz et. al., 2009. Cross-Scale: Multi-scale coupling in space plasmas. Experimental Astronomy, 23, 1001-1015, doi:10.1007/s10686-008-9085-x. [pdf]
[25] G. Balasis, I. A. Daglis, C. Papadimitriou, M. Kalimeri, A. Anastasiadis and K. Eftaxias, 2009. Investigating dynamical complexity in the magnetosphere using various entropy measures. Journal Geophysical Research, 114, A00D06, doi:10.1029/2008JA014035. [pdf]
[26] M. Dimitropoulou, M. Georgoulis, H. Isliker, L. Vlahos, A. Anastasiadis, D. Strintzi and X. Moussas, 2009. The correlation of fractal structures in the photospheric and coronal magnetic field. Astronomy & Astrophysics, 505, 1245-1253, doi:10.1051/0004-6361/200911852.
[pdf]
[27] K. Tziotziou, I. Sandberg, A. Anastasiadis, I. A. Daglis and P. Nieminen, 2010. Using a new set of space-borne particle monitors to investigate solar terrestrial relations. Astronomy & Astrophysics, 514, A21, doi:10.1051/0004-6361/200912928. [pdf]
[28] G. Balasis, I. A. Daglis, A. Anastasiadis, C. Papadimitriou, M. Mandea and K. Eftaxias, 2011. Universality in solar flare, magnetic storm and earthquake dynamics using Tsallis statistical mechanics. Physica A, 390, 341-346 doi:10.1016/j.physa.2010.09.029. [pdf]
[29] G. Balasis, C. Papadimitriou, I. A. Daglis, A. Anastasiadis, L. Athanasopoulou and K. Eftaxias, 2011. Signatures of discrete scale invariance in Dst time series. Geophysical Research Letters, 38, L13103, doi:10.1029/2011GL048019. [pdf]
[30] G. Balasis, C. Papadimitriou, I. A. Daglis, A. Anastasiadis, I. Sandberg and K. Eftaxias, 2011. Similarities between extream events in the solar-terrestrial system by means of nonextensivity. Nonlinear Processes in Geophysics, 18, 563-572, doi:10.5194/npg-18-563-2011. [pdf]
[31] G. Balasis, I. A. Daglis, C. Papadimitriou, A. Anastasiadis, I. Sandberg and K. Eftaxias, 2011. Quantifying dynamical complexity of magnetic storms and solar flares via nonextensive Tsallis entropy. Entropy, 13, 1865-1881, doi:10.3390/e131018651865. [pdf]
[32] A. Anastasiadis, 2012. Editorial of Special Issue: Tsallis Entropy. Entropy, 14, 174-176, doi:10.3390/e14020174. [pdf]
[33] M. Berthomier et. al., 2012. Alfven: Magnetosphere - Ionosphere connection explorers. Experimental Astronomy, 33, 445–489, doi:10.1007/s10686-011-9273-y. [pdf]
[34] I. Sandberg, I. A. Daglis, A. Anastasiadis, P. Buhler, P. Nieminen and H. Evans, 2012. Unfolding and validation of SREM fluxes. IEEE Transactions on Nuclear Science, 59(4), 1105-1112, doi:10.1109/TNS.2012.2187216. [pdf]
[35] C. Gontikakis, S. Patsourakos, C. Efthymiopoulos, A. Anastasiadis and M. K. Georgoulis, 2013. Combining particle acceleration and coronal heating via data-constrained calculations of nanoflares in coronal loops. Astrophysical Journal, 771(2), 126, doi:10.1088/0004-637X/771/2/126. [pdf]
[36] S. Dimitrakoudis, I. Mann, G. Balasis, C. Papadimitriou, A. Anastasiadis and I. A. Daglis, 2015. Accurately specifying storm-time ULF wave radial diffusion in the radiation belts. Geophysical Research Letters, Vol 42(14), 5711-5718, doi: 10.1002/2015GRL064707. [pdf]
[37] I. Kontogiannis, A. Belehaki, G. Tsiropoula, I. Tsagouri, A. Anastasiadis and A. Papaioannou, 2016. Building a new space weather facility at the National Observatory of Athens. Advances in Space Research, 57(1), 418-430, doi:10.1016/j.asr.2015.10.028. [pdf]
[38] C. Tsironis A. Anastasiadis, C. Katsavrias and I. A. Daglis, 2016. Modeling of ion dynamics in the inner geospace during enhanced magnetospheric activity, Annales Geophysicae, 34, 171-185, doi:10.5194/angeo-34-171-2016. [pdf]
[39] S. Patsourakos, M. K. Georgoulis, A. Vourlidas, A. Nindos, T. Sarris, G. Anagnostopoulos, A. Anastasiadis, G. Chintzoglou, et al. 2016. The Major Geoeffective Solar Eruptions of 2012 March 7: Comprehensive Sun-to-Earth Analysis. Astrophysical Journal, 817:14 (21pp), doi:10.3847/0004-637X/817/1/14 . [pdf]
[40] A. Kouloumvakos, S. Patsourakos, A. Nintos, A. Vourlidas, A. Anastasiadis, A. Hillaris and I. Sandberg, 2016. Multi-viewpoint observations of a widely-distributed solar energetic particle event: the role of EUV waves and White Light shock signatures. Astrophysical Journal, 821:31 (15pp), doi:10.3847/0004-637X/821/1/31 . [pdf]
[41] A. Papaioannou, I. Sandberg, A. Anastasiadis, A. Kouloumvakos, M. K. Georgoulis, K. Tziotziou, G. Tsiropoula, P. Jiggens and A. Hilgers, 2016. Solar Flares, Coronal Mass Ejections and Solar Energetic Particle Event Characteristics. Journal of Space Weather and Space Climate, 6, A42, doi:10.1051/swsc/2016035. [pdf]
[42] L. Vlahos, Th. Pisokas, H. Isliker, V. Tsiolis and A. Anastasiadis, 2016. Particle Acceleration and Heating by Turbulent Reconnection. Astrophysical Journal Letters, 827:L3 (5pp), doi:10.3847/2041-8205/827/1/L3. [pdf].
[43] Th. Pisokas, L. Vlahos, H. Isliker, V. Tsiolis and A. Anastasiadis, 2017. Stochastic Fermi Energization of Coronal Plasma during Explosive Magnetic Energy Release. Astrophysical Journal,, 835: 214 (12pp), doi:10.3847/1538-4357/835/2/214 . [pdf].
[44] H.Isliker, Th. Pisokas, L. Vlahos and A. Anastasiadis, 2017. Particle Accelaration and Fractional Transport in Turbulent Reconnection. Astrophysical Journal, 849:35 (13pp), doi:10.3847/1538-4357/aa8ee8 [pdf].
[45] A. Anastasiadis, A. Papaioannou, I. Sandberg, M. K. Georgoulis, K. Tziotziou, A. Kouloumvakos and P. Jiggens, 2017. Predicting Flares and Solar Energetic Particle Events: the FORSPEF Tool. Solar Physics, 292(9):134 (21pp), doi: 10.1007/s11207-017-1163-7 . [pdf].
[46] G. Balasis, I.A. Daglis, Y. Contoyiannis, S.M. Potirakis, C. Papadimitriou, N.S. Melis, O. Giannakis, A. Papaioannou, A. Anastasiadis and C. Kontoes, 2018. Observation of intermittency-induced critical dynamics in geomagnetic field time series prior to the intense magnetic storms of March, June and December 2015, Journal of Geophysical Research, 123, 4594-4613, doi: 10.1002/2017JA025131. [pdf].
[47] A. Papaioannou, A. Anastasiadis, I. Sandberg and P. Jiggens, 2018. Nowcasting of Solar Energetic Particle Events using near real-time Coronal Mass Ejection characteristics in the framework of the FORSPEF tool. Journal of Space Weather and Space Climate, 8, A37, doi:10.1051/swsc/2018024. [pdf].
[48] A. Papaioannou, A. Anastasiadis, A. Kouloumvakos, M. Paassilta, R. Vainio, E. Valtonen, A. Belov, E. Eroshenko, M. Abunina and A. Abunin, 2018. Nowcasting Solar Energetic Particle (SEP) Events using Principal Components Analysis (PCA). Solar Physics, 293:100, doi: 10.1007/s11207-018-1320-7. [pdf].
[49] M. K. Georgoulis, A. Papaioannou, I. Sandberg, A. Anastasiadis, I. A. Daglis, R. Rodriguez-Gasen, A. Aran, B. Sanahuja and P. Nieminen, 2018. Analysis and Interpretation of Inner-Heliospheric SEP Events with the ESA Standard Radiation Environment Monitor (SREM) Onboard the INTEGRAL and Rosetta Missions. Journal of Space Weather and Space Climate, 8, A40, doi:10.1051/swsc/2018027. [pdf].
[50] A. Papaioannou, A. Belov, M. Abunina, J. Guo, A. Anastasiadis, R. Wimmer-Schweingruber, E. Eroshenko, A. Melkumyan, A. Abunin, B. Heber, K. Herbst, and C.T. Steigies, 2019. A catalogue of Forbush decreases recorded on the surface of Mars from 2012 until 2016: comparison with terrestrial FDs. Solar Physics, 294:66, doi:10.1007/s11207-019-1454-2 [pdf]
[51] G. Balasis, S. Aminalragia-Giamini, C. Papadimitriou, I. A. Daglis, A. Anastasiadis and R. Haagmans, 2019. A machine learning approach for automated ULF wave recognition. Journal of Space Weather and Space Climate, 9, A13, doi:10.1051/swsc/2019010. [pdf]
[52] L. Vlahos, A. Anastasiadis, A. Papaioannou, A. Kouloumvakos, and H. Isliker, 2019. Sources of Solar Energetic Particles. Philosophical Transactions A., A377:20180095, doi:10.1098/rsta.2018.0095. [pdf].
[53] A. Anastasiadis, D. Lario, A. Papaioannou, A. Kouloumvakos and A. Vourlidas, 2019. Solar Energetic Particles in the inner Heliosphere: Status & Open Questions. Philosophical Transactions A., A377:20180100, doi:10.1098/rsta.2018.0100. [pdf].
[54] A.P. Rouillard, R.F. Pinto, A. Vourlidas, et.al, 2020. Models and Data Analysis Tools for the Solar Orbiter mission. Anstronomy & Astrophysics, 642, A2, doi:10.1051/0004-6361/201935305. [pdf].
[55] S. Aminalragia-Giamini, P. Jiggens, A. Anastasiadis, I. Sandberg, A. Aran, R. Vainio, C. Papadimitriou, A. Papaioannou, A. Tsigkanos, E. Paouris and M. Paassilta, 2020. Prediction of Solar Proton Event Fluence spectra from their Peak flux spectra. Journal of Space Weather and Space Climate, 10, 1, doi:10.1051/swsc/2019043. [pdf].
[56] A. Papaioannou, A. Belov, M. Abunina, E. Eroshenko, A. Abunin, A. Anastasiadis, S. Patsourakos and H. Mavromichalaki, 2020. Interplanetary Coronal Mass Ejections as a driver of non-recurrent Forbush decreases. Astrophysical Journal, 890:101(14pp), doi:10.3847/1538-4357/ab6bd1. [pdf].
[57] C.Papadimitriou, G. Balasis, A.Z. Boutsi, I. A. Daglis, O. Giannakis, A. Anastasiadis, P. De Michelis and G. Consolini, 2020. Dynamical Complexity of the 2015 St. Patrick’s Day Magnetic Storm at Swarm Altitudes Using Entropy Measures. Entropy, 22(5), 574, doi:10.3390/e22050574. [pdf].
[58] G. Balasis, C.Papadimitriou, A.Z. Boutsi, I. A. Daglis, O. Giannakis, A. Anastasiadis, P. De Michelis and G. Consolini, 2020. Dynamical Complexity in Swarm Electron Density Time Series using Block Entropy. Europhys. Letters, 131 (2020) 69001, doi: 10.1209/0295-5075/131/69001. [pdf].
[59] I. Zouganelis,et. al., 2020. The Solar Orbiter Science Activity Plan: translating solar and heliospheric physics questions into action. Anstronomy & Astrophysics, 642, A3, doi:10.1051/0004-6361/202038445 [pdf].
[60] E. Paouris, A. Vourlidas, A. Papaioannou and A. Anastasiadis, 2021. Assessing the Time-of-Arrival prediction performance of empirical methods to correct projection effects on Coronal Mass Ejection Speeds. Space Weather, 19, 2, doi:10.1029/2020SW002617 [pdf]
[61] E. Paouris, J. Calogovic, M. Dumbovic, M. L. Mays, A. Vourlidas, A. Papaioannou, A. Anastasiadis and G. Balasis, 2021. Propagating conditions and the time of ICMEs arrival: A Comparison of the Effective Acceleration Model with ENLIL and DBEM models. Solar Physics, 296:12, doi:10.1007/s11207-020-01747-4 [pdf].
[62] A. Belov, A. Papaioannou, M. Abunina, M. Dumbovic, I. G. Richardson, B. Heber, P. Kuhl, K. Herbst, A. Anastasiadis, A. Vourlidas, E. Eroshenko, and A. Abunin, 2021. On the Rigidity Spectrum of Cosmic Ray Variations within Propagating Interplanetary Disturbances: Neutron Monitor and SOHO/EPHIN observations at ~ 1-10 GV. Astrophysical Journal, 908:5 (14pp), doi:10.3847/1538-4357/abd724 [pdf].
[63] E. Lavasa, G. Giannopoulos, A. Papaioannou, A. Anastasiadis, I.A.Daglis, A. Aran, D. Pacheco and B. Sanahuja, 2021. Assesing the predictability of Solar Energetic Particles with the use of Machine Learning techniques. Solar Physics, 296, 107, doi:10.1007/s11207-021-01837-x [pdf].
[64] S. Aminalragia-Giamini, S. Raptis, A. Anastasiadis, A. Tsigkanos, I. Sandberg, A. Papaioannou, C. Papadimitriou, P. Jiggens, A. Aran and I. A. Daglis, 2021. Solar Energetic Particle Event occurrence prediction using Solar Flare Soft X-ray measurements and Machine Learning. Journal of Space Weather and Space Climate, doi:10.1051/swsc/2021043. [pdf].
[65] R. M. McGranaghan, E. Camporeale, M. Georgoulis and A. Anastasiadis, 2021. Space Weather research in the Digital Age and across the full data lifecycle: Introduction to the Topical Issue. Journal of Space Weather and Space Climate, 11, 50, doi:10.1051/swsc/2021037. [pdf].
[66] S. Dimitrakoudis, I. R. Mann, G. Balasis, C. Papadimitriou, A. Anastasiadis, and I. A. Daglis, 2022. On the interplay between solar wind parameters and ULF wave power as a function of geomagnetic activity at high- and mid-latitudes. Journal of Geophysical Research, 127, e2021JA029693, doi:10.1029/2021JA029693. [pdf].
[67] A. Papaioannou, A. Kouloumvakos, A. Mishev, R. Vainio, I. Usoskin, K. Herbst, A. P. Rouillard, A. Anastasiadis, J. Gieseler, R. Wimmer-Schweingruber and P. Kühl, 2022. The First Ground Level Enhancement of Solar Cycle 25 on 28 October 2021. Astronomy & Astrophysics (Letters), 660, L5, doi:10.1051/0004-6361/202142855. [pdf].
[68] A. Papaioannou, R. Vainio, O. Raukunen, P. Jiggens, A. Aran, M. Dierckxsens, S. A. Mallios, M. Paassilta and A. Anastasiadis, 2022. The Probabilistic Solar Particle Event foRecasting (PROSPER) Model. Journal of Space Weather and Space Climate, 12, 24, doi:10.1051/swsc/2022019. [pdf].
[69] Κ. Whitman, R. Egeland, et.al., 2023. Review of Solar Energetic Particle Models. Advances in Space Research, vol.72 (12), 5161-5242, doi:10.1016/j.asr.2022.08.006. [pdf].
[70] M. Paassilta, R. Vainio, A. Papaioannou, O. Raukunena, S. Barcewicz and A. Anastasiadis, 2023. Magnetic connectivity and solar energetic proton event intensity profiles at deka-MeV energy. Advances in Space Research, vol.71 (3), 1840 - 1854, doi:10.1016/j.asr.2022.11.051. [pdf].
[71] G. Balasis, A. Z. Boutsi, C. Papadimitriou, S. Potirakis, V. Pitsis, I. A. Daglis, A. Anastasiadis and O. Giannakis, 2023. Investigation of Dynamical Complexity in Swarm-Derived Geomagnetic Activity Indices Using Information Theory, Atmosphere, vol. 14(5), 890, doi:10.3390/atmos14050890. [pdf].
[72] V. Kolympiris, A. Papaioannou, A. Kouloumvakos, I. A. Daglis and A. Anstasiadis, 2023. Release episodes of electrons and protons in Solar Energetic Particle events, Universe, 9(10), 432, doi:10.3390/universe9100432.[pdf]
[73] A. Kouloumvakos, et. al., 2024. The Multi-Spacecraft high-energy solar particle event of 28 October 2021. Astronomy & Astrophysics, 682, A106, doi:10.1051/0004-6361/202346045. [pdf]
[74] M. Georgoulis, et. al., 2024. Prediction of Solar Eruptive Events Impacting Space Weather Conditions. Advances in Space Research , doi:10.1016/j.asr.2024.02.030, in press . [pdf]

Book Chapters

[1] G. Balasis, I. A. Daglis, A. Anastasiadis and K. Eftaxias, 2011. Chapter 12: Detection of dynamical complexity changes in Dst time series using entropy concepts and rescaled range analysis. W. Liu, M. Fujimoto (eds.), The Dynamic Magnetosphere, IAGA Special Sopron Book Series 3, Springer, pp. 211-220, doi:10.1007/978-94-007-0501-2_12. [pdf]

In Refereed Conference Proceedings

[1] K. Tsiganis, A. Anastasiadis and H. Varvoglis, 1999. Effective Lyapunov Numbers and correlation dimensions in a 3-D Hamiltonian system. IAU Colloquium No 172 - The impact of modern dynamics in Astronomy, (Eds: J. Henrard and S. Ferraz-Mello), Kluwer Academic Publishers, p. 447. [pdf]
[2] K. Manolakou, A. Anastasiadis and L. Vlahos, 1999. Particle-acceleration and radiation in the turbulent flow of a jet. Plasma Turbulence and Energetic Particles in Astrophysics, (Eds: M. Ostrowski and R. Schlickeiser), p.333. [pdf]
[3] K. Tsiganis, A. Anastasiadis and H. Varvoglis, 2001. On a Fokker - Planck approach to asteroidal transport. The New Developments in Dynamics of Planetary Systems, (Eds: R. Dvorak and J. Henrard), Kluwer Academic Publishers, p. 337. [ps]
[4] K. Tsiganis, H. Varvoglis and A. Anastasiadis, 2002. Diffusion of asteroids in mean motion resonances. Modern Celestial Mechanics: From Theory to Applications, (Eds: A. Celletti, Ferraz-Mello and J. Henrard), Kluwer Academic Publishers. [ps]
[5] C. Dauphin, N. Vilmer and A. Anastasiadis, 2004. Particle acceleration in a complex solar active region modelled by a cellular automata model. SF2A - Semaine de l'Astrophysique Francaise, (Eds. F. Combes et al.), EDP Sciences Conference Series, p. 237. [pdf]
[6] C. Gontikakis, C Efthymiopoulos and A. Anastasiadis, 2009. Charged Particles's acceleration through reconnecting current sheets in solar flares. Chaos in Astronomy , (Eds. G. Contopoulos and P.A. Patsis), Astrophysics & Space Science Proceedings, Springer-Verlag, p. 449. [pdf]
[7] G. Balasis, I. A. Daglis, A. Anastasiadis and K. Eftaxias, 2010. Investigating magnetospheric dynamics using various complexity measures. Modern Challenges in Nonlinear Plasma Physics, (Eds. D. Vassiliadis et al.), AIP Conference Proceedings, CP1320, p. 65. [pdf]
[8] M.Taylor, I. A. Daglis, A. Anastasiadis and D. Vassiliadis, 2010. Volterra network modeling of the nonlinear finite-impulse response of the radiation belt flux. Modern Challenges in Nonlinear Plasma Physics, (Eds. D. Vassiliadis et al.), AIP Conference Proceedings, CP1320, p. 221. [pdf]
[9] I. A. Daglis, O. Sykioti, A. Anastasiadis, G Balasis, I. Keramitsoglou, D. Paronis, A. Rontogiannis, and S. Diamontopoulos, 2012. Space mission characteristics and requirements to be addressed by Space-Data Router enhancement of Space-Data exploitation. WWIC 2012,(Eds.Y. Koucheryavy et al.), Lecture Notes in Computer Science, Vol.7277, pp. 366–373. (Springer-Verlag Berlin Heidelberg) [pdf]
[10] A. Papaioannou, A. Anastasiadis, I. Sandberg, M. K. Georgoulis, G. Tsiropoula, K. Tziotziou, P. Piggens and A. Hilgers, 2015. A Novel Forecasting System for Solar Particle Events and Flares (FORSPEF). 24th European Cosmic Ray Symposium, (Eds B. Heber), Journal of Physics: Conference Series,632,012075, doi:10.1088/1742-6596/632/1/012075 [pdf]

Ph.D. Thesis

[1] A. Anastasiadis, 1994. Particle acceleration by randomly moving shock waves. Ph.D thesis. Physics Department, Aristotle University of Thessaloniki (in Greek). [Link - NDC]

In No-Refereed Conference Proceedings

[1] A. Anastasiadis, 1992. Particle acceleration by multiple shock waves. Second European Workshop on Collisionless Shock Waves, (Ed: B. Lembege), p.53.
[2] A. Anastasiadis, 1994. Particle acceleration by a number of shock waves. Second Symposium on Solar and Space research in Greece, (Ed: G. Anagnostopoulos), p.471, (in Greek).
[3] A. Anastasiadis and L. Vlahos, 1996. The acceleration, transport and radiation of energetic particles inside an envolving active region. Second Astronomical Conference of the Hellenic Astronomical Society, (Eds: M. E. Contadakis et al.), p. 59.
[4] K. Manolakou, A. Anastasiadis and L. Vlahos, 1996. Stochastic particle acceleration in a strongly turbulent flow of a jet. Second Astronomical Conference of the Hellenic Astronomical Society , (Eds: M. E. Contadakis et al.), p. 445.
[5] I. A. Daglis, A. Anastasiadis, G. Tsiropoula and E. T. Sarris, 1999. Space Physics in Greece: Experience and Future Prospects. Astronomy 2000+ Conference Proceedings , (Eds: E. Kontizas et al.), p. 90. [ps]
[6] H. Isliker, A. Anastasiadis and L. Vlahos, 2001. A solar flare model in between MHD and Cellular Automaton. Fourth Astronomical Conference of The Hellenic Astronomical Society, (Eds: J. Seimenis), p.213. [pdf]
[7] K. Tsiganis, A. Anastasiadis and H. Varvoglis, 2001. Transport in the outer asteroid belt: Fokker-Planck approach vs. numerical integrations. Fourth Astronomical Conference of The Hellenic Astronomical Society, (Eds: J. Seimenis), p.135.[pdf]
[8] A. Anastasiadis, I. A. Daglis and I. D. Kontodinas, 2002. Ion acceleration through an auroral potential structure: Numerical Simulations, Fifth Astronomical Conference of The Hellenic Astronomical Society, (Ed: D. Hatzidimitriou), Electronic Edition.[pdf]
[9] H. Isliker, A. Anastasiadis and L. Vlahos, 2002. The study of solar flares with the extended cellular automaton (X-CA) model. Fifth Astronomical Conference of The Hellenic Astronomical Society, (Ed: D. Hatzidimitriou), Electronic Edition. [ps]
[10] A. Anastasiadis and I. A. Daglis, 2002. Solar Terrestrial Research and Space Weather Activities in Greece, ESA Publication WPP-194, (Ed. A. Glover), p.321. [pdf]
[11] A. Anastasiadis, C. Gontikakis, N. Vilmer and L. Vlahos, 2002. Acceleration and radiation model of solar energetic particles in an evolving active region. ESA Publication SP-505 (Ed. H. Sawaya-Lacoste), p. 337. [pdf]
[12] H. Isliker, A. Anastasiadis and L. Vlahos, 2002. The extended cellular automaton (X-CA) model for solar flares. ESA Publication SP-506 , (Ed. A. Wilson) p. 641.[pdf]
[13] A. Anastasiadis, C. Gontikakis, N. Vilmer and L. Vlahos, 2002. Particle acceleration and radiation in an evolving active gion based on a CA model. ESA Publication SP-506, (Ed. A. Wilson), 265. [pdf]
[14] A. Anastasiadis, 2003. Cellular automata models and MHD approach in the context of solar flares in First School of Physics and Technology of Fusion Proceedings , (Ed. A. Grekos), p.115. [pdf]
[15] A. Anastasiadis, C. Gontikakis, N. Vilmer and L. Vlahos, 2004. Energetic particle acceleration and radiation in evolving complex active regions. Sixth Astronomical Conference of The Hellenic Astronomical Society, (Eds: P. Laskarides), p. 71. [pdf]
[16] A. Anastasiadis, 2004. Cellular automata models: A sandpile model applied in fusion. Second School of Physics and Technology of Fusion Proceedings, (Ed. A. Grekos), p. 61. [pdf]
[17] A. Anastasiadis, C. Dauphin and N. Vilmer, 2006. Acceleration and radiation model of particles in solar active regions. Recent Advances in Astronomy and Astrophysics (Ed. N. Solomos), AIP Conference Proceedings, Vol. 848, p.79. [pdf]
[18] C. Gontikakis, C. Efthymiopoulos and A. Anastasiadis, 2006. Electron orbits in reconnecting current sheets. Recent Advances in Astronomy and Astrophysics (Ed. N. Solomos), AIP Conference Proceedings, Vol. 848, p.88. [pdf]
[19] C. Gontikakis, A. Anastasiadis and C. Efthymiopoulos, 2007. Particle acceleration in single or multiple solar current sheets: The final spectra. ESA Publication SP-641 , (Eds. E. Marsch et al.) CD-ROM Edition. [pdf]
[20] H. Mavromichalaki, A. Papaioannou, M. Gerontidou, I. A. Daglis, A. Anastasiadis, I. Sandberg, K. Tziotziou, et al., 2009. Solar particle event analysis using the ESA Standard Radiation Environment Monitor and the worldwide Neutron Monitor Network. 31st International Cosmic Ray Conference Proceedings. [pdf]
[21] G. Balasis, I. A. Daglis, A. Anastasiadis and K. Eftaxias, 2010. Dynamical complexity in Dst time series using entropy concepts. Advances in Hellenic Astronomy, (Eds. K. Tsinganos et al.), ASP Conference Series, vol. 424, p.57. [pdf]
[22] M.Taylor, I. A. Daglis, A. Anastasiadis and D. Vassiliadis, 2010. Identification of nonlinear space weather models of the Van Allen radiation belts using Volterra networks. Advances in Hellenic Astronomy, (Eds. K. Tsinganos et al.), ASP Conference Series, vol. 424, p. 92. [pdf]
[23] I. Sandberg, I. A. Daglis, A. Anastasiadis, K. Tziotziou et.al., 2010. Estimating fluxes of SEPs by unfolding ESA/SREM data. Advances in Hellenic Astronomy, (Eds. K. Tsinganos et al.), ASP Conference Series, vol. 424, p.43. [pdf]
[24] K. Tziotziou, I. Sandberg, A. Anastasiadis, I.A. Daglis, I. Panagopoulos, et al., 2010. Solar origin of solar particle events detected by the Standard Radiation Environment Monitor of ESA. Advances in Hellenic Astronomy, (Eds. K. Tsinganos et al.), ASP Conference Series, vol. 424, p. 47. [pdf]
[25] I. A. Daglis, G. Balasis, P. Kapiris, B. Di Fiore, A. Anastasiadis and M. Georgiou, 2010. Combining groud-based and satellite magnetic data for investigating the Earth's magnetosphere. Proccedings of 2nd SWARM International Science Meeting. ESA Publication WPP-303.
[26] I. A. Daglis, A. Rontogiannis, O. Sykioti, I. Keramitsoglou, D. Paronis, A. Anastasiadis, G. Balasis, et.al., 2014. Enchaning space data exploitation through DTN-based data transmission protocols. NETSPACE Proceedings, (Eds. O. Sykioti and I.A. Daglis), NOA Publication ISBN: 978-960-6816-02-4, p.1. [pdf]
[27] A. Anastasiadis, I. A. Daglis, G. Balasis, C. Papadimitriou, I. Sandberg et. al., 2014. On the role of advanced data routing protocols in enchancing the characterization and understanding of magnetospheric processes. (Eds. O. Sykioti and I.A. Daglis), NOA Publication ISBN: 978-960-6816-02-4, p.33. [pdf]
[28] I. Keramitsoglou, I. A. Daglis, A. Rontogiannis, A. Anastasiadis, G. Balasis et. al., 2014. Using Space-Data-Routers for the timely and trageted downloading of Land Surface Temperature data to local users. NETSPACE Proceedings, (Eds. O. Sykioti and I.A. Daglis), NOA Publication ISBN: 978-960-6816-02-4, p.41. [pdf]

Other Publications

[1] A. Anastasiadis, 1985. Comparison of Newtonian and Relativistic Cosmology. Diploma thesis, Physics Department, Aristotle University of Thessaloniki, (in Greek).
[2] A. Anastasiadis and I.A. Daglis, 1988. A review of the ion acceleration by shock waves and turbulent flows. Greek Physical Review, (in Greek).
[3] A. Anastasiadis, 1996. Stochastic Particle acceleration in a turbulent flow of a jet. Internal Report, Aristotle University of Thessaloniki.
[4] A. Anastasiadis, 1996. Acceleration models for the abundances of heavy ions in impulsive solar flares. Internal Report, Max Planck Institut fuer Extraterrestrische Physik, Germany.
[5] A. Anastasiadis 1996. The 8th European Meeting on Solar Physics: Solar & Heliospheric Plasma Physics. Hipparchos, Vol. 1, No 2, p. 6.
[6] A. Anastasiadis, 1997. The Fokker - Planck Equation : Application to Hamiltonian. Internal Report, Aristotle University of Thessaloniki.
[7] A. Anastasiadis, 1997. Shock Drift Acceleration: Adiabatic Theory. Internal Report, Aristotle University of Thessaloniki.
[8] A. Anastasiadis 1999. The Institute of Space Applications and Remote Sensing of the National Observatory of Athens. Hipparchos, Vol. 1, No 7, p. 5.
[9] A. Anastasiadis and I. A. Daglis, 2001. Space Storms and Space Weather Hazards in Geospace. Hipparchos, Vol. 1, No 9, p. 7.
[10] Y. Kominis, K. Hizanidis, A. K. Ram and A. Anastasiadis, 2006. Higher-order diffusion equation for resonant wave-particle interactions. Annual Report of Hellenic EURATOM Association, p.60.
[11] I. Sandberg, H. Isliker, V. P. Pavlenko and A. Anastasiadis, 2006. Finite Larmor radius effects on coupled ITG and TEM modes. Annual Report of Hellenic EURATOM Association, p.84.
[12] I. A. Daglis, A. Anastasiadis, G. Balasis and A. Belehakis, 2007. Participation of the Institute for Space Applications and Remote Sensing of the National Obsrvatory of Athens in space science programs. Hipparchos, Vol. 2, No 3, p. 34.

 

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