Research Article
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Year 2021, Volume: 16 Issue: 1, 31 - 38, 15.03.2021

Abstract

References

  • Kurt, K., Yeşil, A., Sagir, S., Atici, R. The relationship of stratospheric QBO with the difference of measured and calculated NmF2, Acta Geophysica 64 (6) (2016), pp2781-2793
  • Unal, I., Senalp, E.T., Yeşil, A., Tulunay, Y., Tulunay, E. Performance of IRI-based ionospheric critical frequency calculations with reference to forecasting, Radio Science 46 (01) (2011), pp1-10
  • Yesil, A., Sagir S., Kurt, K., The Behaviour of the Classical Diffusion Tensor for Equatorial Ionospheric Plasma, Journal of Science, 13(2016), pp123-127
  • Yesil, A., Unal, I., Electromagnetic Wave Propagation in Ionospheric Plasma, Behaviour of Electromagnetic Waves in Different Media and Structures, pp 189
  • Yesil, A., Sagir, S., Updating Conductivity Tensor of Cold and Warm Plasma for Equatorial Ionosphere F2-Region in The Northern Hemisphere, Iranian Journal of Science and Technology, Transactions A: Science 43 (1) (2019), pp 315-320
  • Sagir, S., Yesil. A., The Relation Between the Refractive Index of the Equatorial Ionospheric F2 Region and Long-Term Solar Indices, Wireless Personal Communications 102 (1)(2018), pp 31-40
  • Yesil, A., Sagir, S., Kurt, K., The Behavior of the Classical Diffusion Tensor for Mid-Latitude Ionospheric Plasma, Bitlis Eren Üniversitesi Fen Bilimleri Dergisi 5 (2) (2016)
  • Sagir, S., Karatay, S., Atici, R., Yesil A., Ozcan, O., The relationship between the Quasi Biennial Oscillation and Sunspot Number, Advances in Space Research 55(1) (2015), pp 106-112
  • Yesil, A., The Effect of the cold plasma on the propagation of the electromagnetic waves, Firat University, Elazig, 1995
  • Yesil, A.and Unal,İ The Electromagnetic waves in the fully ionozed plasma, Firat University, Elazig, 2002
  • Yesil, A., The Effect of the Electron Temperature on the Electric Polarization Coefficient of Ionospheric Plasma, International Journal of Science & Technology 1 (2) (2006), pp 125-130
  • Kaladze, T., Tsamalashvili, L., Kaladze, D., Ozcan, O., Yesil, A., Inc, M., Modified KdV equation for magnetized Rossby waves in a zonal flow of the ionospheric E-layer, Physics Letters A 383 (32) (2019), pp125888
  • Sagir, S., Atici, R., Akalin, Y., Yesil, A., The assessment in terms of QBO of NeQuick 2 model, The Egyptian Journal of Remote Sensing and Space Science 22 (1)(2019),pp 67-72
  • Timucin, E., Unal, I., Yesil, A., The Effect of the Midlatitude Electron Density Trough on the Ionospheric Conductivities, Iranian Journal of Science and Technology, Transactions A: Science 43 (1) (2019), pp 297-307
  • Yesil, A., Kurt, K., Calculation of electric field strength in the ionospheric F-region, Thermal Science 22 (Suppl. 1) (2019), pp 159-164
  • Timocin, E., Yesil, A., Unal, I., The effect of the geomagnetic activity to the hourly variations of ionospheric foF2 values at low latitudes, Arabian Journal of Geosciences 7 (10) (2014), pp 4437-4442
  • Unal, I., Senalp, E.T., Yeşil, A., Tulunay, Y., Tulunay, E. Two possible approaches for ionospheric forecasting to be employed along with the IRI model, URSI General Assembly and Scientific Symposium (2011), pp 1-4
  • Swanson, D.G., Plasma waves, Academic Press, New York, 1989
  • Whitten, R.C., Poppoff, I.G., Fundamentals of Aeoronmy, John Willey and Sons, New York, 1971
  • Budden, K.G., The Propagation of Radio Waves, Cambridge University Press, Cambridge, 1988
  • Budden, K.G., Stott, G.F., Rays in magneto-ionic theory-II, Journal of Atmospheric and Solar Terrestrial Physics, 42(1980), pp791–800. Richard, F. (2014) The physics of Plasma, CRC press, New York, Pp. 50–140.
  • Hunsucker, R.D. and Hargreaves, J., K., 2003, The High-Latitude Ionosphere and its Effects on Radio Propagation, Cambridge University Press, 1-50
  • Aydoğdu M,Yeşil A,Güzel E, 2003, The Group Refractive Indices of HF Waves in the Ionosphere and Departure From the Magnitude Without Collisions, Elazığ,
  • Özcan, O., Aydoğdu, M., Yeşil, A., Güzel, E., 1996, The Damping of Radio Waves in the Ionospheric Plasma over Elazığ, F. Ü. Fen ve Müh. Bilimleri Dergisi, s. 113–123
  • Rishbeth, Henry, 1973, Physics and Chemistry of the Ionospheric Contemp, Phys, 14,229, 240
  • Rishbeth, H. ve Garriot, O.K., 1969, Introduction to Ionospheric Physics, Academic Pres, New York
  • Bailey, G. J., Su, Y. Z. and Oyama, K.-I., 2000, Yearly Variations In The Low-Latitude Topside Ionosphere, Ann. Geophysicae, 18, 789-798

The Change of The Magnitude of The Electric Field Vector (EyE0) in The Ionosphere in The Magnetic Equator Through

Year 2021, Volume: 16 Issue: 1, 31 - 38, 15.03.2021

Abstract

In this study, the seasonal changes of (Ey/E0), which was obtained from the WKB (Wentzel, Kramers, Brillouin) solution, for (-300 ;300) geographic latitudes and (390,410,450,500,550 and 600 Km) altitudes in the equatorial anomaly region were investigated. (Ey/E0) ratio takes minimum value in latitudes, where the electron density is at maximum levels and takes maximum value in places where the electron density is at minimum levels, respectively. It is possible to say that in places where the electron density is at maximum, the wave transfers energy to the medium, otherwise it receives energy from the medium.

References

  • Kurt, K., Yeşil, A., Sagir, S., Atici, R. The relationship of stratospheric QBO with the difference of measured and calculated NmF2, Acta Geophysica 64 (6) (2016), pp2781-2793
  • Unal, I., Senalp, E.T., Yeşil, A., Tulunay, Y., Tulunay, E. Performance of IRI-based ionospheric critical frequency calculations with reference to forecasting, Radio Science 46 (01) (2011), pp1-10
  • Yesil, A., Sagir S., Kurt, K., The Behaviour of the Classical Diffusion Tensor for Equatorial Ionospheric Plasma, Journal of Science, 13(2016), pp123-127
  • Yesil, A., Unal, I., Electromagnetic Wave Propagation in Ionospheric Plasma, Behaviour of Electromagnetic Waves in Different Media and Structures, pp 189
  • Yesil, A., Sagir, S., Updating Conductivity Tensor of Cold and Warm Plasma for Equatorial Ionosphere F2-Region in The Northern Hemisphere, Iranian Journal of Science and Technology, Transactions A: Science 43 (1) (2019), pp 315-320
  • Sagir, S., Yesil. A., The Relation Between the Refractive Index of the Equatorial Ionospheric F2 Region and Long-Term Solar Indices, Wireless Personal Communications 102 (1)(2018), pp 31-40
  • Yesil, A., Sagir, S., Kurt, K., The Behavior of the Classical Diffusion Tensor for Mid-Latitude Ionospheric Plasma, Bitlis Eren Üniversitesi Fen Bilimleri Dergisi 5 (2) (2016)
  • Sagir, S., Karatay, S., Atici, R., Yesil A., Ozcan, O., The relationship between the Quasi Biennial Oscillation and Sunspot Number, Advances in Space Research 55(1) (2015), pp 106-112
  • Yesil, A., The Effect of the cold plasma on the propagation of the electromagnetic waves, Firat University, Elazig, 1995
  • Yesil, A.and Unal,İ The Electromagnetic waves in the fully ionozed plasma, Firat University, Elazig, 2002
  • Yesil, A., The Effect of the Electron Temperature on the Electric Polarization Coefficient of Ionospheric Plasma, International Journal of Science & Technology 1 (2) (2006), pp 125-130
  • Kaladze, T., Tsamalashvili, L., Kaladze, D., Ozcan, O., Yesil, A., Inc, M., Modified KdV equation for magnetized Rossby waves in a zonal flow of the ionospheric E-layer, Physics Letters A 383 (32) (2019), pp125888
  • Sagir, S., Atici, R., Akalin, Y., Yesil, A., The assessment in terms of QBO of NeQuick 2 model, The Egyptian Journal of Remote Sensing and Space Science 22 (1)(2019),pp 67-72
  • Timucin, E., Unal, I., Yesil, A., The Effect of the Midlatitude Electron Density Trough on the Ionospheric Conductivities, Iranian Journal of Science and Technology, Transactions A: Science 43 (1) (2019), pp 297-307
  • Yesil, A., Kurt, K., Calculation of electric field strength in the ionospheric F-region, Thermal Science 22 (Suppl. 1) (2019), pp 159-164
  • Timocin, E., Yesil, A., Unal, I., The effect of the geomagnetic activity to the hourly variations of ionospheric foF2 values at low latitudes, Arabian Journal of Geosciences 7 (10) (2014), pp 4437-4442
  • Unal, I., Senalp, E.T., Yeşil, A., Tulunay, Y., Tulunay, E. Two possible approaches for ionospheric forecasting to be employed along with the IRI model, URSI General Assembly and Scientific Symposium (2011), pp 1-4
  • Swanson, D.G., Plasma waves, Academic Press, New York, 1989
  • Whitten, R.C., Poppoff, I.G., Fundamentals of Aeoronmy, John Willey and Sons, New York, 1971
  • Budden, K.G., The Propagation of Radio Waves, Cambridge University Press, Cambridge, 1988
  • Budden, K.G., Stott, G.F., Rays in magneto-ionic theory-II, Journal of Atmospheric and Solar Terrestrial Physics, 42(1980), pp791–800. Richard, F. (2014) The physics of Plasma, CRC press, New York, Pp. 50–140.
  • Hunsucker, R.D. and Hargreaves, J., K., 2003, The High-Latitude Ionosphere and its Effects on Radio Propagation, Cambridge University Press, 1-50
  • Aydoğdu M,Yeşil A,Güzel E, 2003, The Group Refractive Indices of HF Waves in the Ionosphere and Departure From the Magnitude Without Collisions, Elazığ,
  • Özcan, O., Aydoğdu, M., Yeşil, A., Güzel, E., 1996, The Damping of Radio Waves in the Ionospheric Plasma over Elazığ, F. Ü. Fen ve Müh. Bilimleri Dergisi, s. 113–123
  • Rishbeth, Henry, 1973, Physics and Chemistry of the Ionospheric Contemp, Phys, 14,229, 240
  • Rishbeth, H. ve Garriot, O.K., 1969, Introduction to Ionospheric Physics, Academic Pres, New York
  • Bailey, G. J., Su, Y. Z. and Oyama, K.-I., 2000, Yearly Variations In The Low-Latitude Topside Ionosphere, Ann. Geophysicae, 18, 789-798
There are 27 citations in total.

Details

Primary Language English
Journal Section TJST
Authors

Ali Yeşil

Publication Date March 15, 2021
Submission Date August 22, 2020
Published in Issue Year 2021 Volume: 16 Issue: 1

Cite

APA Yeşil, A. (2021). The Change of The Magnitude of The Electric Field Vector (EyE0) in The Ionosphere in The Magnetic Equator Through. Turkish Journal of Science and Technology, 16(1), 31-38.
AMA Yeşil A. The Change of The Magnitude of The Electric Field Vector (EyE0) in The Ionosphere in The Magnetic Equator Through. TJST. March 2021;16(1):31-38.
Chicago Yeşil, Ali. “The Change of The Magnitude of The Electric Field Vector (EyE0) in The Ionosphere in The Magnetic Equator Through”. Turkish Journal of Science and Technology 16, no. 1 (March 2021): 31-38.
EndNote Yeşil A (March 1, 2021) The Change of The Magnitude of The Electric Field Vector (EyE0) in The Ionosphere in The Magnetic Equator Through. Turkish Journal of Science and Technology 16 1 31–38.
IEEE A. Yeşil, “The Change of The Magnitude of The Electric Field Vector (EyE0) in The Ionosphere in The Magnetic Equator Through”, TJST, vol. 16, no. 1, pp. 31–38, 2021.
ISNAD Yeşil, Ali. “The Change of The Magnitude of The Electric Field Vector (EyE0) in The Ionosphere in The Magnetic Equator Through”. Turkish Journal of Science and Technology 16/1 (March 2021), 31-38.
JAMA Yeşil A. The Change of The Magnitude of The Electric Field Vector (EyE0) in The Ionosphere in The Magnetic Equator Through. TJST. 2021;16:31–38.
MLA Yeşil, Ali. “The Change of The Magnitude of The Electric Field Vector (EyE0) in The Ionosphere in The Magnetic Equator Through”. Turkish Journal of Science and Technology, vol. 16, no. 1, 2021, pp. 31-38.
Vancouver Yeşil A. The Change of The Magnitude of The Electric Field Vector (EyE0) in The Ionosphere in The Magnetic Equator Through. TJST. 2021;16(1):31-8.