Your search keyword '"Geomagnetic conjugacy"' showing total 92 results

1. Geomagnetic conjugacy of plasma bubbles extending to mid-latitudes during a geomagnetic storm on March 1, 2013

Author

Takuya Sori, Yuichi Otsuka, Atsuki Shinbori, Michi Nishioka, and Septi Perwitasari

Subjects

Ionosphere, Geomagnetic storm, Rate of total electron content index, Plasma bubbles, Mid-latitudes, Geomagnetic conjugacy, Geography. Anthropology. Recreation, Geodesy, QB275-343, Geology, QE1-996.5

Abstract

Abstract This study, for the first time, reports the geomagnetically conjugate structure of a plasma bubble extending to the mid-latitudes and the asymmetrical structure of the decay of the plasma bubble during a geomagnetic storm. We investigated the temporal and spatial variations of plasma bubbles in the Asian sector during a geomagnetic storm on March 1, 2013, using Global Navigation Satellite System-total electron content data with high spatiotemporal resolutions. The first important point of our data analysis results is that the plasma bubble extended from the equator to the mid-latitudes with geomagnetic conjugacy along the magnetic field lines. The total electron content data showed that the plasma bubbles appeared in the equatorial regions near 150° E after sunset during the main phase of the geomagnetic storm. From ionosonde data over both Japan and Australia, they suggest that a large eastward electric field existed in the Asian sector. Finally, the plasma bubbles extended up to the mid-latitudes (~ 43° geomagnetic latitude) in both hemispheres, maintaining geomagnetic conjugacy. The second point is that the mid-latitude plasma bubble disappeared 1–2 h earlier in the northern hemisphere than in the southern hemisphere at close to midnight. In the northern hemisphere, the ionospheric virtual height decreased near midnight, followed by a rapid decrease in the total electron content and a rapid increase in the ionospheric virtual height. These results imply that the mid-latitude plasma bubble disappeared as the background plasma density decreased after midnight due to the recombination resulting from the descent of the F layer. Therefore, we can conclude that mid-latitude plasma bubbles can be asymmetric between the northern and southern hemispheres because of the rapid decay of plasma bubbles in one of the hemispheres. Graphical Abstract

Published

2022

2. A confirmation of vertical acoustic resonance and field-aligned current generation just after the 2022 Hunga Tonga Hunga Ha’apai volcanic eruption

Author

Toshihiko Iyemori, Michi Nishioka, Yuichi Otsuka, and Atsuki Shinbori

Subjects

Acoustic resonance, Field-aligned currents, Geomagnetic conjugacy, Geomagnetic field oscillation, GPS-TEC oscillation, Ionospheric current, Geography. Anthropology. Recreation, Geodesy, QB275-343, Geology, QE1-996.5

Abstract

Abstract A strong volcanic eruption caused a clear vertical acoustic resonance between the sea surface and the thermosphere. Its effects are observed as geomagnetic and GPS-TEC oscillations near the volcano and its geomagnetic conjugate area. The geomagnetic oscillations are observed at Apia and Honolulu geomagnetic observatories with amplitude of about 2 nT and 0.2 nT, respectively. The volcanic eruption started around 04:14 UT on January 15, 2022. The oscillations appeared at 04:21UT at Apia, Samoa, only about 7 min after the start of eruption. Because the distance between the volcano and Apia is about 841 km, it takes about 40 min for a sound wave to propagate from the volcano to Apia. Therefore, it is more plausible to assume that the magnetic oscillation observed at Apia about 7 min after the eruption is caused by the sound waves propagated vertically upward to the ionosphere and generated an electric current. The coherent appearance of geomagnetic oscillation at Honolulu located near the geomagnetic conjugate point of the volcano strongly support the idea that the ionospheric current generated over the volcano diverted as a field-aligned current which flew to the opposite hemisphere and caused the geomagnetic oscillation at Honolulu. The earliest start of GPS-TEC oscillation was around 04:15UT near the volcanic eruption, and it was around 04:20 UT at KOKV station in Hawaii. The time-lag of the TEC variations between Samoa and Hawaii obtained by a cross-correlation analysis is 4.5 min or 8.5 min. These time differences are much smaller than the travel time of the seismic waves from the volcano to Hawaii islands. Therefore, it is suggested that the electric field transmitted along geomagnetic field caused the TEC variation observed over Hawaii Islands. A sawtooth waveform of geomagnetic oscillation observed at Apia and Honolulu is analyzed and a possible generation mechanism is discussed. Graphical Abstract

Published

2022

3. Geomagnetic conjugacy of plasma bubbles extending to mid-latitudes during a geomagnetic storm on March 1, 2013.

Author

Sori, Takuya, Otsuka, Yuichi, Shinbori, Atsuki, Nishioka, Michi, and Perwitasari, Septi

Subjects

*MAGNETIC storms, *ARTIFICIAL satellites in navigation, *MAGNETIC fields, *GEOMAGNETISM, *PLASMA density, *ELECTRIC fields, *BUBBLES

Abstract

This study, for the first time, reports the geomagnetically conjugate structure of a plasma bubble extending to the mid-latitudes and the asymmetrical structure of the decay of the plasma bubble during a geomagnetic storm. We investigated the temporal and spatial variations of plasma bubbles in the Asian sector during a geomagnetic storm on March 1, 2013, using Global Navigation Satellite System-total electron content data with high spatiotemporal resolutions. The first important point of our data analysis results is that the plasma bubble extended from the equator to the mid-latitudes with geomagnetic conjugacy along the magnetic field lines. The total electron content data showed that the plasma bubbles appeared in the equatorial regions near 150° E after sunset during the main phase of the geomagnetic storm. From ionosonde data over both Japan and Australia, they suggest that a large eastward electric field existed in the Asian sector. Finally, the plasma bubbles extended up to the mid-latitudes (~ 43° geomagnetic latitude) in both hemispheres, maintaining geomagnetic conjugacy. The second point is that the mid-latitude plasma bubble disappeared 1–2 h earlier in the northern hemisphere than in the southern hemisphere at close to midnight. In the northern hemisphere, the ionospheric virtual height decreased near midnight, followed by a rapid decrease in the total electron content and a rapid increase in the ionospheric virtual height. These results imply that the mid-latitude plasma bubble disappeared as the background plasma density decreased after midnight due to the recombination resulting from the descent of the F layer. Therefore, we can conclude that mid-latitude plasma bubbles can be asymmetric between the northern and southern hemispheres because of the rapid decay of plasma bubbles in one of the hemispheres. [ABSTRACT FROM AUTHOR]

Published

2022

4. A confirmation of vertical acoustic resonance and field-aligned current generation just after the 2022 Hunga Tonga Hunga Ha'apai volcanic eruption.

Author

Iyemori, Toshihiko, Nishioka, Michi, Otsuka, Yuichi, and Shinbori, Atsuki

Subjects

*ACOUSTIC resonance, *GEOMAGNETISM, *SEISMIC waves, *SOUND waves, *THERMOSPHERE, *ELECTRIC currents, *ELECTRIC fields

Abstract

A strong volcanic eruption caused a clear vertical acoustic resonance between the sea surface and the thermosphere. Its effects are observed as geomagnetic and GPS-TEC oscillations near the volcano and its geomagnetic conjugate area. The geomagnetic oscillations are observed at Apia and Honolulu geomagnetic observatories with amplitude of about 2 nT and 0.2 nT, respectively. The volcanic eruption started around 04:14 UT on January 15, 2022. The oscillations appeared at 04:21UT at Apia, Samoa, only about 7 min after the start of eruption. Because the distance between the volcano and Apia is about 841 km, it takes about 40 min for a sound wave to propagate from the volcano to Apia. Therefore, it is more plausible to assume that the magnetic oscillation observed at Apia about 7 min after the eruption is caused by the sound waves propagated vertically upward to the ionosphere and generated an electric current. The coherent appearance of geomagnetic oscillation at Honolulu located near the geomagnetic conjugate point of the volcano strongly support the idea that the ionospheric current generated over the volcano diverted as a field-aligned current which flew to the opposite hemisphere and caused the geomagnetic oscillation at Honolulu. The earliest start of GPS-TEC oscillation was around 04:15UT near the volcanic eruption, and it was around 04:20 UT at KOKV station in Hawaii. The time-lag of the TEC variations between Samoa and Hawaii obtained by a cross-correlation analysis is 4.5 min or 8.5 min. These time differences are much smaller than the travel time of the seismic waves from the volcano to Hawaii islands. Therefore, it is suggested that the electric field transmitted along geomagnetic field caused the TEC variation observed over Hawaii Islands. A sawtooth waveform of geomagnetic oscillation observed at Apia and Honolulu is analyzed and a possible generation mechanism is discussed. [ABSTRACT FROM AUTHOR]

Published

2022

5. Magnetic Conjugacy of Pc1 Waves and Isolated Proton Precipitation at Subauroral Latitudes: Importance of Ionosphere as Intensity Modulation Region.

Author

Ozaki, Mitsunori, Shiokawa, Kazuo, Horne, Richard B., Engebretson, Mark J., Lessard, Marc, Ogawa, Yasunobu, Hosokawa, Keisuke, Nosé, Masahito, Ebihara, Yusuke, Kadokura, Akira, Yagitani, Satoshi, Miyoshi, Yoshizumi, Hashimoto, Shion, Sinha, Shipra, Sinha, Ashwini K., Seemala, Gopi K., and Jun, Chae‐Woo

Subjects

*CYCLOTRON resonance, *IONOSPHERE, *PROTONS, *AMPLITUDE modulation, *MAGNETIC resonance, *GEOMAGNETISM, *CYCLOTRONS

Abstract

Pc1 geomagnetic pulsations, equivalent to electromagnetic ion cyclotron waves in the magnetosphere, display a specific amplitude modulation, though the region of the modulation remains an open issue. To classify whether the amplitude modulation has a magnetospheric or ionospheric origin, an isolated proton aurora (IPA), which is a proxy of Pc1 wave‐particle interactions, is compared with the associated Pc1 waves for a geomagnetic conjugate pair, Halley Research Base in Antarctica and Nain in Canada. The temporal variation of an IPA shows a higher correlation coefficient (0.88) with Pc1 waves in the same hemisphere than that in the opposite hemisphere. This conjugate observation reveals that the classic cyclotron resonance is insufficient to determine the amplitude modulation. We suggest that direct wave radiation from the ionospheric current by IPA should also contribute to the amplitude modulation. Plain Language Summary: The amplitude of electromagnetic ion cyclotron (EMIC) waves in the magnetosphere, which are observed as Pc1 waves on the ground, is an important parameter for characterizing the loss of energetic particles. The generation region of EMIC waves is well understood as being the magnetic equator, but the amplitude modulation region is not well‐established due to wide horizontal Pc1 wave propagation in ionospheric ducts. Here we compare the properties of Pc1 waves and isolated proton precipitation from an ideal geomagnetic conjugate observation at Halley Research Base in Antarctica and Nain in Canada. By visualizing the cyclotron resonance region in the magnetosphere as an isolated proton aurora (IPA), the ambiguity of the horizontal propagation effects of Pc1 waves in the ionosphere is ideally removed. The observed IPA in the northern hemisphere has remarkable similarities with Pc1 waves in the same northern hemisphere, but not the southern hemisphere, providing evidence that the temporal variations of wave amplitude can be characterized by an ionospheric current induced in the IPA, and cannot be described only by a classical cyclotron resonance mechanism at the magnetic equator. Therefore, this study suggests that an IPA ionospheric current contributes to temporal modulations of Pc1 waves on the ground. Key Points: Similarities and differences of magnetic conjugacy between Pc1 waves and isolated proton precipitation are reportedThe proton aurora shows a strong similarity with Pc1 waves in the same hemisphere, not characterized by classical cyclotron resonanceThis study suggests the importance of ionosphere for Pc1 waves by an ionospheric current modulation of an isolated proton aurora [ABSTRACT FROM AUTHOR]

Published

2021

6. Coherent Raman studies of optical nonlinearities in conjugated molecules and polymers

Author

Atherton, Kathryn Jane

Subjects

539.7, COHERENT SCATTERING, RAMAN SPECTROSCOPY, NONLINEAR OPTICS, GEOMAGNETIC CONJUGACY, MOLECULES, POLYMERS

Published

1997

7. GEOMAGNETIC CONJUGACY OF MODERN TECTONIC STRUCTURES

Author

G. Ya. Khachikyan, N. S. Zhakupov, and N. Zh. Kadyrkhanova

Subjects

tectonic structures, geomagnetic conjugacy, Science

Abstract

An earthquake is an element of the global electric circuit (GEC) – this new idea suggested in the space age is tested in our study. In the frame of the GEC concept, one may expect that tectonic structures of the northern and southern hemispheres may be magnetically conjugated. It is found that the midocean ridges of the southern hemisphere, located along the boundary of the Antarctic lithosphere plate, are magnetically conjugated with the areas of the junction of continental orogens and platforms in the northern hemisphere. The closest geomagnetic conjugacy exists between the southern boundary of Nazca lithospheric plate and the northern boundaries of Cocos and Caribbean lithospheric plates.

Published

2015

8. VLF Technique and Science in India

Author

Chakravarty, S [Member, Governing Body, Indian Centre for Space Physics, Kolkata (India)]

Published

2010

9. Conjugate problem of radiative-convective heat transfer in a turbulent boundary layer on a porous plate for a compressible medium

Author

Timofeev, A [RAN, Inst. Teplofiziki, Novosibirsk (Russian Federation)]

Published

1992

10. Probing the magnetsophere with artificial electron beams

Author

Winckler, J

Published

1981

11. Relation between the sectoral structure of the interplanetary magnetic field and atmospheric pressure at conjugate points and a statistical anaysis of this relation

Author

Mansurov, G

Published

1974

12. North--south asymmetry of geomagnetic and tropospheric events

Author

Mansurova, L

Published

1974

13. Satellite measurements of photoelectron fluxes

Author

Wrenn, G

Published

1974

14. North--south asymmetry of geomagnetic and tropospheric phenomena

Author

Mansurova, L

Published

1974

15. Survey of satellite and ground based measurements of photoelectron excited emissions

Author

Carlson, H

Published

1974

16. Long period hydromagnetic wave inside the plasmasphere

Author

Lanzerotti, L

Published

1982

17. Electron precipitation zones around major ground-based VLF signal sources

Author

Helliwell, R

Published

1984

18. Conjugate observation of electron microburst groups by Bremsstrahlung X-ray and riometer techniques

Author

Lanzerotti, L

Published

1980

19. Model for the anisotropic reentry of albedo

Author

Koenig, P

Published

1981

20. Different phases of a magnetospheric substorm on June 23, 1979

Author

others, and

Published

1987

21. Ionosphere and ground-based response to field-aligned currents near the magnetospheric cusp regions

Author

Medford, L

Published

1987

22. Coordinated airborne and satellite measurements of equatorial plasma depletions

Author

Moore, J

Published

1982

23. Dependence of the charge exchange lifetimes on mirror latitude

Author

Bewtra, N

Published

1976

24. ULF geomagnetic power near L=4 5. Cross-power spectral studies of geomagnetic variations 2--27 mHz in conjugate areas

Author

Fukunishi, H

Published

1976

25. Spontaneous excitation of atoms near a phase-conjugating mirror

Author

Milonni, P

Published

1988

26. Pc 1 Emissions in the afternoon sector prior to the July 29, 1977 sudden commencement

Author

Olsen, J

Published

1982

27. Birkeland currents and charged particles in the high-latitude prenoon region: A new interpretation

Author

Klumpar, D

Published

1988

28. Power line radiation: Possible evidence of van der Pol oscillations in the magnetosphere

Author

Detrick, D

Published

1980

29. Numerical simulations of counterstreaming plasmas and their relevance to interhemispheric flows

Author

Schunk, R

Published

1983

30. Large-scale counterstreaming of H/sup +/ and He/sup +/ along plasmaspheric flux tubes

Author

Sojka, J

Published

1983

31. Modulation of VLF hiss by geomagnetic pulsations

Author

Raspopov, O

Published

1974

32. Geospace - The earth's plasma environment

Author

Lanzerotti, L

Published

1981

33. Impulsive particle precipitation and concurrent magnetic field changes observed in conjugate areas near L = 4

Author

Rosenberg, T

Published

1983

34. Investigation of wave--particle interactions and particle dynamics using electron beams injected from sounding rockets

Author

Winckler, J

Published

1974

35. French--Soviet ARAKS experiment

Author

Gendrin, R

Published

1974

36. Exospheric models of the topside ionosphere

Author

Scherer, M

Published

1974

37. Interaction of photoelectrons with plasma oscillations

Author

Kolokolov, L

Published

1974

38. Detailed analysis of energy exchanges and polarization of the lines composing PC 1 fine structure

Author

Wehrlin, N

Published

1974

39. Magnetic field near the region of the ionosphere conjugate with region of anomalous ionospheric electrical conductivity

Author

Abramov, L

Published

1974

40. The OMEGA 2 campaign. X-ray measurement at subauroral conjugate points and ground-based measurements of ionospheric perturbations

Author

Treilhou, J

Published

1974

41. Echo I: an experimental analysis of local effects and conjugate return echoes from an electron beam injected into the magnetosphere by a sounding rocket

Author

Winckler, J

Published

1975

42. Wave polarizations of geomagnetic pulsations observed in high latitudes on the Earth's surface

Author

Inoue, Yuji

Published

1973

43. Earth's magnetic field and its consequences in space research

Author

Combou, F

Published

1973

44. External geophysics: high altitude experiments

Author

Reme, H

Published

1973

45. OBSERVATIONS OF IONOSPHERIC ELECTRON CONTENT AT MEDIUM LATITUDE GEOMAGNETICALLY CONJUGATE STATIONS.

Author

Yeh, K

Published

1972

46. QUADRUPLE CONJUGATE PAIR OBSERVATIONS OF THE SUDDEN COMMENCEMENT ABSORPTION EVENT ON JUNE 17, 1965.

Author

Akasofu, S

Published

1972

47. 6300A (OI) AIRGLOW AT HIGHER MIDLATITUDES DURING SOLAR MAXIMUM.

Author

Nichol, D

Published

1971

48. AURORAL X-RAY AND CONJUGATE IONOSPHERIC ABSORPTION OBSERVATIONS OF AN ELECTRON PRECIPITATION EVENT ACCOMPANYING A SUDDEN IMPULSE IN THE GEOMAGNETIC FIELD.

Author

Karas, R

Published

1972

49. Three-dimensional current system of a substorm allowing for the mutual influence of magnetically conjugated regions of the ionosphere

Author

Debabov, A

Published

1973

50. Traveling disturbances in magnetically conjugate regions of the ionosphere

Author

Chernysheva, S

Published

1973