Space Climate Department
a part of Space Research and Technology Institute

All references to publications of Dimitar Danov
for the period 1996÷September 2016

Number of mentioned publications: 14 Number of references: 84

Year of publishing: 1996

1. L.G Bankov, G.A Stanev, A.K Vassileva, V.A Kirova, D.L Danov, W.B Hanson, R.A Heelis. A case study of subauroral ion drift velocity jets by means of dynamics explorer-2 and intercosmos bulgaria-1300 satellites data. Advances in Space Research, 17, 10, Elsevier, 1996, ISSN:0273-1177, DOI:10.1016/0273-1177(95)00713-O, 193 - 200. ISI IF:1.358
Cited in:
1. V. L. Khalipov, Yu. I. Galperin, A. E. Stepanov, L. V. Shestakova. Formation of a Polarization Jet during the Expansion Phase of a Substorm: Results of Ground-Based Measurements. Cosmic Research, Vol. 39, No. 3, pp. 226–235,   @2001
2. Y. I. Galperin. Polarization jet: Characteristics and a model, Annales Geophysicae, 20 (3), pp.391-404,   @2002

Year of publishing: 2005

2. Danov, D., Gousheva, M., Glavcheva, R., Angelov, P., Hristov, P.. Influence of Earthquakes on the Electric Field Disturbances in the Ionosphere on Board of the Intercosmos – Bulgaria – 1300 Satellite. C. R. Acad. Bulg. Sci., 58, 8, 2005, ISSN:13101331, 911 - 916. SJR:0.21, ISI IF:0.284
Cited in:
3. Xuemin Zhang, Huaran Chen, Jing Liua Xuhui Shen, Yuanqing Miao, Xuebin Du, Jiadong Qian. Ground-based and satellite DC-ULF electric field anomalies around Wenchuan M8.0 earthquake. Advances in Space Research, Vol.50, Iss.1, pp.85–95,   @2012

Year of publishing: 2006

3. Gousheva, M., Glavcheva, R., Danov, D., Angelov, P., Hristov, P., Kirov, B., Georgieva, K.. Satellite monitoring of anomalous effects in the ionosphere probably related to strong earthquakes. Advances in Space Research, 37, 4, 2006, 660 - 665. ISI IF:1.358
Cited in:
4. Alexander A. Namgaladze, Oleg V. Zolotov, Mikhail I. Karpov, Yulia V. Romanovskaya Manifestations of the earthquake preparations in the ionosphere total electron content variations, Natural Science, Vol.4, No.11, 848-855 (2012) DOI:10.4236/ns.2012.411113,   @2012
5. Wang Yuanxin, Rong-Hong Jin, Xian-Ling Liang, Jun-Ping Geng, Propagation of SLF/ELF Electromagnetic Waves Excited by an Underground HED in the Lower Ionosphere, IEEE Transactions on Antennas and Propagation 60(11):5412-5418 · November 2012, DOI:10.1109/TAP.2012.2207682,   @2012
6. Sidorova, L.N., Filippov, S.V.. Topside ionosphere He + density depletions: Seasonal/longitudinal occurrence probability(2012) Journal of Atmospheric and Solar-Terrestrial Physics , 86, pp. 83-91,   @2012
7. Zolotov O.V., Namgaladze A.A., Prokhorov B.E.,. Total electron content disturbances prior to Great Tohoku March 11, 2011 and October 23, 2011 Turkey Van earthquakes and their physical interpretation, Proceedings of the MSTU, Vol. 15, No. 3, pp.583-594,   @2012
8. Sorokin, V.M., Pokhotelov, O.A.. Model for the VLF/LF radio signal anomalies formation associated with earthquakes(2014) Advances in Space Research , 54 (12), pp. 2532-2539,   @2014
9. Wang, Y.-X., Zhao, Z.-W., Wu, Z.-S., Jin, R.-H., Liang, X.-L., Geng, J.-P.. Fast convergence algorithm for earthquake prediction using electromagnetic fields excited by SLF/ELF horizontal magnetic dipole and schumann resonance(2014) Wireless Personal Communications , 77 (2), pp. 1039-1053.,   @2014
10. Oleg V. Zolotov. Why Seismo-Ionosphere Speculations do Matter, Proc. of IV International conference "ATMOSPHERE, IONOSPHERE, SAFETY", Kaliningrad, 2014, pp.256-262,   @2014
11. Sorokin, V., Chmyrev, V., Hayakawa, M. Electrodynamic coupling of lithosphere - atmosphere - ionosphere of the earth, 1-355, Nova Science Publishers, ISBN: 978-163483058-4;978-163483030-0,   @2015
12. A. A. Namgaladze, M. I. Karpov Conduction current and extraneous electric current in the global electric circuit, RUSSIAN JOURNAL OF PHYSICAL CHEMISTRY B 9(5):754-757 · SEPTEMBER 2015, DOI: 10.1134/S1990793115050231,   @2015
13. V. M. Sorokin and Yu. Ya. Ruzhin, Electrodynamic Model of Atmospheric and Ionospheric Processes on the Eve of an Earthquake, ISSN 00167932, Geomagnetism and Aeronomy, 2015, Vol. 55, No. 5, pp. 626–642. © Pleiades Publishing, Ltd., 2015.,   @2015
14. Zolotov, O. V., Ionosphere quasistatic electric fields disturbances over seismically active regions as inferred from satellite-based observations: A review. Russian Journal of Physical Chemistry B, vol. 9, issue 5, pp. 785-788,   @2015
15. O.V. Zolotov, On Quasi-Static Ionosphere Electric Fields Observations over Earthquake Preparation Regions, Proc. of the 10th Intl Conf. "Problems of Geocosmos" (Oct 6-10, 2014, St.Petersburg, Russia),   @2015
4. Gousheva, M., Glavcheva, R., Danov, D., Boshnakov, I.. Satellite Observations of Ionospherical Disturbances Associated to Seismic Activity. C. R. Acad. Bulg. Sci., 59, 8, 2006, ISSN:1310-1331, 821 - 826. SJR:0.21, ISI IF:0.284
Cited in:
16. Zolotov, O.V.. Ionosphere quasistatic electric fields disturbances over seismically active regions as inferred from satellite-based observations: A review(2015) Russian Journal of Physical Chemistry B , 9 (5), pp. 785-788,   @2015
17. O.V. Zolotov, On Quasi-Static Ionosphere Electric Fields Observations over Earthquake Preparation Regions, Proc. of the 10th Intl Conf. "Problems of Geocosmos" (Oct 6-10, 2014, St.Petersburg, Russia), pp.155-157,   @2015
5. D. Danov, E. E. Antonova, P. Nenovski. Scales of the field-aligned current structures in the high-latitude magnetosphere according to the Intercosmos-Bulgaria-1300 satellite data. Geomagnetism and Aeronomy, 46, 4, Springer, 2006, ISSN:0016-7932, DOI:10.1134/S0016793206040086, 467 - 472. ISI IF:0.492
Cited in:
18. S.S. Rossolenko, M.O. Riazantseva, I.P.Kirpichev, I.L. Ovchinnikov, K.G. Orlova, B.V. Marjin, M.A. Saveliev, V.M. Feigin, M.V.Stepanova. Structural Features of Auroral Precipitations and Topology of High Latitude Current Systems. Proc. XXXI Annual Seminar, Apatity, pp. 79- 82,   @2008
19. Knipp, D. J., T. Matsuo, L. Kilcommons, A. Richmond, B. Anderson, H. Korth, R. Redmon, B. Mero, N. Parrish(2014), Comparison of magnetic perturbation data from LEO satellite constellations: Statistics of DMSP and AMPERE, Space Weather, 12, 2–23, doi:10.1002/2013SW000987,   @2014

Year of publishing: 2007

6. Danov, D., Koleva, R.. Field-Aligned Currents on Board of Intercosmos Bulgaria-1300 Satellite in Comparison with Modelled Large-Scale Currents. SUN and GEOSPHERE, 2, 1, 2007, ISSN:1819 - 0839, 39 - 42
Cited in:
20. Daum, Patrick, Denton, M.H.,  Wild, J.A., Taylor, M.G.G.T., Safrankova, J., Hayosh, M. A general Cluster data and global MHD simulation comparison. Annales Geophysicae, 26 (11). pp. 3411-3428,   @2008
21. L. Chen, D. J. Wu, J. Huang, Kinetic Alfvén wave instability driven by field-aligned currents in a low-β plasma, Journal of Geophysical Research - Space Physics, Vol.118, Iss.6, pp.2951–2957,   @2013
7. Gousheva, M., Danov, D., Hristov, P.. Ionospheric Pre- and Post Effects of Earthquakes at polar, Middle, Low and Near-Equatorial Latitudes. C. R. Acad. Bulg. Sci., 60, 9, 2007, ISSN:1310-1331, 939 - 946. SJR:0.21, ISI IF:0.284
Cited in:
22. Zolotov, O.V.. Ionosphere quasistatic electric fields disturbances over seismically active regions as inferred from satellite-based observations: A review (2015) Russian Journal of Physical Chemistry B , 9 (5), pp. 785-788,   @2015
23. O.V. Zolotov, On Quasi-Static Ionosphere Electric Fields Observations over Earthquake Preparation Regions, Proc. of the 10th Intl Conf. “Problems of Geocosmos” (Oct 6-10, 2014, St.Petersburg, Russia) pp.155-157,   @2015

Year of publishing: 2008

8. Gousheva, M., Glavcheva, R.P., Danov, D.L., Hristov, P.L., Kirov, B., Georgieva, K.. Electric field and ion density anomalies in the mid latitude ionosphere: Possible connection with earthquakes?. Advances in Space Research, 42, 1, Elsevier, 2008, ISSN:02731177, DOI:10.1016/j.asr.2008.01.015, 206 - 212. ISI IF:1.358
Cited in:
24. M. Akhoondzadeh, M. Parrot, M. R. Saradjian Electron and ion density variations before strong earthquakes (M> 6.0) using DEMETER and GPS data, Nat. Hazards Earth Syst. Sci., 10, 7-18,   @2010
25. T. Xu, Y. Hu, J. Wu, Z. Wu, Y. Suo, J. Feng Giant disturbance in the ionospheric F2 region prior to the M8.0 Wenchuan earthquake on 12 May 2008, Ann. Geophys., 28, 1533-1538, doi:10.5194/angeo-28-1533-2010  @2010
26. V. Grimalsky, A. Kotsarenko, S. Pulinets, On the modulation of intensity of Alfvén resonances before earthquakes: Observations and model, J. of Atm. and Solar-Terr. Phy.. 72(1), pp.1–6,   @2010
27. Kiyoung Kim, Tornado Genesis, viXra:1008.0059 , 37 pages   @2010
28. X. Zhang, Z. Zeren, M. Parrot, R. Battiston, J. Qian, X. Shen ULF/ELF ionospheric electric field and plasma perturbations related to Chile earthquakes, Adv.Sp.Res., V47 (6), pp.991–1000,   @2011
29. T. Xu, Y. Hu, J. Wu, Z. Wu, C. Li, Z. Xu, Y. Suo. Anomalous enhancement of electric field derived from ionosonde data before the great Wenchuan earthquake, AdvSpRes, 47 (6), pp.1001–1005,   @2011
30. Zeng Hong, Zhu Guangwu, Qin Guotai, Chen Huajiao, Li Yongping. Abnormal variation of thermosphere atmospheric density during the period of big earthquake. Chin. J. Space Sci., 31(3): 318-322,   @2011
31. Al. A. Namgaladze, O. V. Zolotov, M. I. Karpov, Y. V. Romanovskaya, Manifestations of the earthquake preparations in the ionosphere total electron content variations, Natural Science, Vol.4, No.11, 848-855,   @2012
32. T Xu, Y Hu, H Zhang, Z Chen, J Wu, Z Xu, Ionospheric disturbances on 8 September, 2010: Was it connected with the incoming moderate Chongqing earthquake?, AdvSpRes, 50 (2), pp.205–210,   @2012
33. Zolotov O.V., Namgaladze A.A., Prokhorov B.E., Total electron content disturbances prior to Great Tohoku March 11, 2011 and October 23, 2011 Turkey Van earthquakes and their physical interpretation,Proceedings of the MSTU, Vol. 15(3), pp.583-594,   @2012
34. Aleksandra Nina, Vladimir M. Čadež , Lukač. Popović., Vladimir A. Srećković, Saša Simić, Differences In Detection of D-Region Perturbations Induced by the Uv, X And γ Radiation From Outer Space Using VLF Signals, Proc. of the IX Bulgarian-Serbian Astronomical Conference: Astroinformatics (IX BSACA) Sofia, Bulgaria, July 2-4, 2014, pp.137-147,   @2014
35. Oleg V. Zolotov. Why Seismo-Ionosphere Speculations Do Matter, Proc. of IV International conference "ATMOSPHERE, IONOSPHERE, SAFETY", Kaliningrad, 2014, pp.256-262,   @2014
36. Matova, M; Glavcheva, R.; 120th Anniversary of Seismology in Bulgaria: Milestones, Development and Achievements. Boletín de Geología, 36() 125-158.,   @2014
37. Mansouri Daneshvar, M.R., Tavousi, T., Khosravi, M.. Atmospheric blocking anomalies as the synoptic precursors prior to the induced earthquakes: a new climatic conceptual model(2015) International Journal of Environmental Science and Technology , 12 (5), pp. 1705-1718.,   @2015
38. O.V. Zolotov, On Quasi-Static Ionosphere Electric Fields Observations over Earthquake Preparation Regions, Proc. of the 10th Intl Conf. "Problems of Geocosmos" (Oct 6-10, 2014, St.Petersburg, Russia) pp.155-157,   @2015
39. O.V. Zolotov, Ionosphere quasistatic electric fields disturbances over seismically active regions as inferred from satellite-based observations: A review, Russian Journal of Physical Chemistry B, 9(5), pp785-788,   @2015
9. Gousheva, M., Danov, D., Hristov, P., Matova, M.. Quasi-static electric fields phenomena in the ionosphere associated with preand post-earthquake effects. Natural Hazards and Earth System Science, 8, 1, 2008, 101 - 108. SJR:0.978, ISI IF:1.735
Cited in:
40. V.M. Chmyrev, V.M. Sorokin, Generation of internal gravity vortices in the high-latitude ionosphere, Journal of Atmospheric and Solar-Terrestrial Physics, 72(13), 992–996,   @2010
41. V.M. Sorokin, Yu.Ya. Ruzhin, A.K. Yaschenko, M. Hayakawa, Generation of VHF radio emissions by electric discharges in the lower atmosphere over a seismic region, Journal of Atmospheric and Solar-Terrestrial Physics, 73(5-6), 664–670,   @2011
42. X. Zhanga, Z. Zerena, M. Parrotc, R. Battistonb, J. Qiana, X. Shen, ULF/ELF ionospheric electric field and plasma perturbations related to Chile earthquakes, AdvSpRes, 47(6), pp.991–1000,   @2011
43. Xuemin Zhang, Huaran Chenb, Jing Liu, Xuhui Shen, Yuanqing Miao, Xuebin Du, Jiadong Qian, Ground-based and satellite DC-ULF electric field anomalies around Wenchuan M8.0 earthquake, AdvSpRes, 50(1), pp.85-95,   @2012
44. Valery Sorokin, Yuriy Ruzhin, Vladimir Kuznetsov, Alexey Yaschenko, Model of electric discharge formation in the lower atmosphere over a seismic region, Geomatics, Natural Hazards and Risk, Volume 3, Issue 3, pp.225-238,   @2012
45. X. Zhang, X. Shen, M. Parrot, Z. Zeren, X. Ouyang, J. Liu, J. Qian, S. Zhao, Y. Miao, Phenomena of electrostatic perturbations before strong earthquakes (2005–2010) observed on DEMETER, Nat. Hazards Earth Syst. Sci., 12, 75-83,   @2012
46. Yu. V. Romanovskaya, A. A. Namgaladze, O. V. Zolotov, N. A. Starikova, V. Z. Lopatiy., Searching for seismo-ionospheric earthquakes precursors: Total Electron Content disturbances before 2005-2006 seismic events, xrXiv.org, 5 pages,   @2012
47. Zolotov O.V., Namgaladze A.A., Prokhorov B.E.,. Total electron content disturbances prior to Great Tohoku March 11, 2011 and October 23, 2011 Turkey Van earthquakes and their physical interpretation, Proceedings of the MSTU, Vol. 15, No. 3, pp.583-594,   @2012
48. Vitaly Chmyrev, Alan Smith, Dhiren Kataria, Boris Nesterov, Christopher Owen, Peter Sammonds, Valery Sorokin, Filippos Vallianatos, Detection and monitoring of earthquake precursors: TwinSat, a Russia–UK satellite project, AdvSpRes, 52(6), pp.1135–1145,   @2013
49. Valery Sorokin, Masashi Hayakawa, Generation of Seismic-Related DC Electric Fields and Lithosphere-Atmosphere-Ionosphere Coupling, Modern Applied Science, Vol 7, No 6 (2013), pp.1-25,   @2013
50. V.V. Denisenko, M. Ampferer, E.V. Pomozova, A.V. Kitaev, W. Hausleitner, G. Stangl, H.K. Biernat. On electric field penetration from ground into the ionosphere, Journal of Atmospheric and Solar-Terrestrial Physics (JASTP), Vol.102, pp.341–353,   @2013
51. Yang, X.-B., Zhou, C., Liu, J., Zhao, Z.-Y., Zhang, Y.-N.. A numerical study of seismic-related electric field in the ionosphere(2014) Chinese Journal of Geophysics (Acta Geophysica Sinica), 57 (11), pp. 3650-3658,   @2014
52. Oleg V. Zolotov. Why Seismo-Ionosphere Speculations Do Matter, Proc. of IV International conference "ATMOSPHERE, IONOSPHERE, SAFETY", Kaliningrad, 2014, pp.256-262,   @2014
53. V.M. Sorokin, O.A. Pokhotelov, Model for the VLF/LF radio signal anomalies formation associated with earthquakes, AdvSpRes, 54(12), pp. 2532–2539,   @2014
54. S. F. Zhao, X. M. Zhang, Z. Y. Zhao, X. H. Shen, The numerical simulation on ionospheric perturbations in electric field before large earthquakes, Ann. Geophys., 32, 1487-1493,   @2014
55. E. V. Pomozov, Influence of the atmospheric surface layer on the penetration of the electric field from the earth’s surface into the ionosphere, Geomagnetism and Aeronomy, Vol.54, Iss.1, pp 127-134,   @2014
56. X. Zhang, X. Shen, S. Zhao, Lu Yao, X. Ouyang, J. Qian, The characteristics of quasistatic electric field perturbations observed by DEMETER satellite before large earthquakes, Journal of Asian Earth Sciences, V.79, part A, pp.42–52,   @2014
57. Sorokin, V.M., Ruzhin, Y.Y.. Electrodynamic model of atmospheric and ionospheric processes on the eve of an earthquake(2015) Geomagnetism and Aeronomy , 55 (5), pp. 626-642. * A,   @2015
58. Sorokin, V., Chmyrev, V., Hayakawa, M. Electrodynamic coupling of lithosphere - atmosphere - ionosphere of the earth, 1-355, Nova Science Publishers, ISBN: 978-163483058-4;978-163483030-0,   @2015
59. Namgaladze, A.A., Karpov, M.I.. Conduction current and extraneous electric current in the global electric circuit(2015) Russian Journal of Physical Chemistry B , 9 (5), pp. 754-757.,   @2015
60. O. V. Zolotov, Ionosphere quasistatic electric fields disturbances over seismically active regions as inferred from satellite-based observations: A review, Russian Journal of Physical Chemistry B, Vol. 9, Iss. 5, pp 785-788,   @2015
61. O.V. Zolotov, O n Quasi-Static Ionosphere Electric Fields Observations over Earthquake Preparation Regions, Proc. of the 10th Intl Conf. "Problems of Geocosmos" (Oct 6-10, 2014, St.Petersburg, Russia),   @2015
62. Zhang, X., Shen, X., Zhao, S., Liu, J., Ouyang, X., Lou, W., Zeren, Z., He, J., Qian, G. The seismo-ionospheric monitoring technologies and their application research development, Acta Seismologica Sinica , 38 ( 3 ) pp. 356 - 375 .,   @2016

Year of publishing: 2009

10. Gousheva, M., Danov, D., Hristov, P., Matova, M.. Ionospheric quasi-static electric field anomalies during seismic activity August–September 1981. Natural Hazards and Earth System Science, 9, 1, EGU, 2009, 3 - 15. SJR:0.978, ISI IF:1.735
Cited in:
63. Alexander A. Namgaladze, Oleg V. Zolotov, Mikhail I. Karpov, Yulia V. Romanovskaya Manifestations of the earthquake preparations in the ionosphere total electron content variations, Natural Science, Vol.4, No.11, 848-855 (2012) DOI:10.4236/ns.2012.411113,   @2012
64. Zolotov O.V., Namgaladze A.A., Prokhorov B.E.,. Total electron content disturbances prior to Great Tohoku March 11, 2011 and October 23, 2011 Turkey Van earthquakes and their physical interpretation, Proceedings of the MSTU, Vol. 15, No. 3, pp.583-594,   @2012
65. Ghosh, D., Midya, S.K.. Associating an ionospheric parameter with major earthquake occurrence throughout the world(2014) Journal of Earth System Science , 123 (1), pp. 63-71,   @2014
66. Sorokin, V.M., Pokhotelov, O.A.. Model for the VLF/LF radio signal anomalies formation associated with earthquakes(2014) Advances in Space Research , 54 (12), pp. 2532-2539,   @2014
67. Midya, S.K., Gole, P.K.. Trend of major earthquakes during the period 1900-2011 and its association with some solar and geomagnetic parameters(2013) Indian Journal of Physics , 88 (1), pp. 1-4,   @2014
68. Alexander A. Namgaladze, Mikhail I. Karpov. On the Conductivity and External Electric Currents in the Global Electric Circuit. Proc. of IV International conference "ATMOSPHERE, IONOSPHERE, SAFETY", Kaliningrad, 2014, pp.10-12,   @2014
69. Oleg V. Zolotov. Why Seismo-Ionosphere Speculations Do Matter, Proc. of IV International conference "ATMOSPHERE, IONOSPHERE, SAFETY", Kaliningrad, 2014, pp.256-262,   @2014
70. Карпов Михаил Иванович, Формирование мезомасштабного электрического поля в ионосфере в периоды подготовки землетрясений, Труды Кольского научного центра РАН, № 6 (32) / 2015, pp.87-92,   @2015
71. Петко Неновски. Катастрофалните земетресения и поуките от тях, Списание на БАН, 1/2015, pp.31-39,   @2015
72. Sorokin, V.M., Ruzhin, Y.Y.. Electrodynamic model of atmospheric and ionospheric processes on the eve of an earthquake, Geomagnetism and Aeronomy , 55 (5), pp. 626-642.,   @2015
73. Sorokin, V., Chmyrev, V., Hayakawa, M. Electrodynamic coupling of lithosphere - atmosphere - ionosphere of the earth, 1-355, Nova Science Publishers, ISBN: 978-163483058-4;978-163483030-0,   @2015
74. Namgaladze, A.A., Karpov, M.I.. Conduction current and extraneous electric current in the global electric circuit(2015) Russian Journal of Physical Chemistry B , 9 (5), pp. 754-757.,   @2015
75. O.V. Zolotov, On Quasi-Static Ionosphere Electric Fields Observations over Earthquake Preparation Regions, Proc. of the 10th Intl Conf. "Problems of Geocosmos" (Oct 6-10, 2014, St.Petersburg, Russia) pp.155-157,   @2015

Year of publishing: 2012

11. Gousheva, M., Danov, D., Hristov, P.. Statistical Study of the Quasi-Static Electric Field Anomalies in the Upper Ionosphere Related to Seismic Activity above Different Tectonic Structures of the Earth. C. R. Acad. Bulg. Sci., 64, 9, 2012, ISSN:1310-1331, 1249 - 1260. SJR:0.21, ISI IF:0.284
Cited in:
76. Петко Неновски. Катастрофалните земетресения и поуките от тях, Списание на БАН, 1/2015, pp.31-39,   @2015
77. Zolotov, O.V.. Ionosphere quasistatic electric fields disturbances over seismically active regions as inferred from satellite-based observations: A review(2015) Russian Journal of Physical Chemistry B , 9 (5), pp. 785-788,   @2015
78. O.V. Zolotov, On Quasi-Static Ionosphere Electric Fields Observations over Earthquake Preparation Regions, Proc. of the 10th Intl Conf. “Problems of Geocosmos” (Oct 6-10, 2014, St.Petersburg, Russia) pp.155-157,   @2015

Year of publishing: 2013

12. Elena Saiz, Yolanda Cerrato, Consuelo Cid, Venera Dobrica, Pavel Hejda, Petko Nenovski, Peter Stauning, Josef Bochnicek, Dimitar Danov, Crisan Demetrescu, Walter D. Gonzalez, Georgeta Maris, Dimitar Teodosiev, Fridich Valach. Geomagnetic response to solar and interplanetary disturbances. Journal of Space Weather and Space Climate, 3, A26, EDP Sciences 17, avenue du Hoggar Parc d'activités de Courtaboeuf 91944 Les Ulis Cedex France, 2013, ISSN:2115-7251, DOI:/10.1051/swsc/2013048, 1 - 20. SJR:1.12
Cited in:
79. Belehaki A., M. Messerotti, M. Candidi. Developing Space Weather products and services in Europe– Preface to the Special Issue on COST Action ES0803. J. Space Weather Space Climate, 4, E1, 2014, DOI: 10.1051/swsc/2014032,   @2014
80. Rudi Čop, Damir Deželjin, Robert De Reggi, Determination of Local Geomagnetic K-Index, GEODETSKI VESTNIK 59(4), pp.697-708 DOI:10.15292/geodetski-vestnik.2015.04.697-708,   @2015
81. M. Vázquez, J. M. Vaquero , M. C. Gallego, T. Roca Cortés, P. L. Pallé, Long-Term Trends and Gleissberg Cycles in Aurora Borealis Records (1600–2015), 2016, Solar Physics, January 25, pp 1-30,   @2016
82. M. Stepanova, J.A. Valdivia. Contribution of Latin-American scientists to the study of the m agnetosphere of the Earth. A Review, Advances in Space Research, JASR 12665, doi:10.1016/j.asr.2016.03.023,   @2016

Year of publishing: 2015

13. Werner, R., Valev, D., Danov, D., Guineva, V., Kirillov, A.. Analysis of global and hemispheric temperature records and prognosis. Adv. Space Res., 55, 12, Elsevier, 2015, ISSN:0273-1177, DOI:10.1016/j.asr.2015.03.005, 2961 - 2973. ISI IF:1.36
Cited in:
83. E. S. El-Mallah, S. G. Elsharkawy Time-Series Modeling and Short Term Prediction of Annual Temperature Trend on Coast Libya Using the Box-Jenkins ARIMA Model, Advances in Research 6(5): 1-11, 2016, Article no.AIR.24175,   @2016
14. Werner, R., Valev, D., Danov, D., Guineva, V.. Study of structural break points in global and hemispheric temperature series by piecewise regression., 56, 11, Adv. Space Res., 2015, ISSN:0273-1177, DOI:10.1016/j.asr.2015.09.007, 2323 - 2334. ISI IF:1.36
Cited in:
84. Jinjie Song, Yuan Wang, Jianping Tang A Hiatus of the Greenhouse Effect, (2016) Nature, Scientific Reports 6, Article number: 33315, doi:10.1038/srep33315,   @2016
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