H. Pham Thi Thu scite author profile

Abstract. Quiet days variations in the Earth's magnetic field (the Sq current system) are compared and contrasted for the Asian, African and American sectors using a new dataset from Vietnam. This is the first presentation of the variation of the Earth's magnetic field (Sq), during the solar cycle 23, at Phu Thuy, Vietnam (geographic latitudes 21.03 • N and longitude: 105.95 • E). Phu Thuy observatory is located below the crest of the equatorial fountain in the Asian longitude sector of the Northern Hemisphere. The morphology of the Sq daily variation is presented as a function of solar cycle and seasons. The diurnal variation of Phu Thuy is compared to those obtained in different magnetic observatories over the world to highlight the characteristics of the Phu Thuy observations. In other longitude sectors we find different patterns.At Phu Thuy the solar cycle variation of the amplitude of the daily variation of the X component is correlated to the F.10.7 cm solar radiation (∼0.74). This correlation factor is greater than the correlation factor obtained in two observatories located at the same magnetic latitudes in other longitude sectors: at Tamanrasset in the African sector (∼0.42, geographic latitude ∼22.79) and San Juan in the American sector (∼0.03, geographic latitude ∼18.38).At Phu Thuy, the Sq field exhibits an equinoctial and a diurnal asymmetry:-The seasonal variation of the monthly mean of X component exhibits the well known semiannual pattern with 2 equinox maxima, but the X component is larger in spring than in autumn. Depending of the phase of the sunspot cycle, the maximum amplitude of the X component varies in spring from 30 nT to 75 nT and in autumn from 20 nT to 60 nT. The maximum amplitude of the X component exhibits roughly the same variation in bothCorrespondence to: H. Pham Thi Thu (hongnd76@yahoo.com) solstices, varying from about ∼20 nT to 50 nT, depending on the position into the solar cycle.-In all seasons, the mean equinoctial diurnal Y component has a morning maximum Larger than the afternoon minimum i.e. the equivalent current flow over a day is more southward than northward. During winter, the asymmetry is maximum, it erases the afternoon minimum. At the Gnangara observatory, in Asian Southern Hemisphere, the diurnal Y pattern is opposite and the current flow is more northward. It seems that in the Asian sector, the northern and southern Sq current cells both contribute strongly to the equatorial electrojet. The pattern is different in the African and American sectors where the northern Sq current cell contribution to the equatorial electrojet is smaller than the southern one. These observations can explain the unexpected maximum of amplitude of the equatorial electrojet observed in the Asian sector where the internal field is very large. During winter the Y component flow presents an anomaly, it is always southward during the whole day and there is no afternoon northward circulation.

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Sun-Earth System Interaction studies over Vietnam: an international cooperative project

Amory‐Mazaudier¹,

Cohen²,

Doumbia³

et al. 2006

Ann. Geophys.

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Time variations of the ionosphere at the northern tropical crest of ionization at Phu Thuy, Vietnam

Thu

Amory‐Mazaudier²

2011

Ann. Geophys.

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Abstract. This study is the first which gives the climatology of the ionosphere at the northern tropical crest of ionization in the Asian sector. We use the data from Phu Thuy station, in Vietnam, through three solar cycles (20, 21 and 22), showing the complete morphology of ionosphere parameters by analyzing long term variation, solar cycle variation and geomagnetic activity effects, seasonal evolution and diurnal development. Ionospheric critical frequencies, foF2, foF1 and foE, evolve according to the 11-year sunspot cycle. Seasonal variations show that foF2 exhibits a semiannual pattern with maxima at equinox, and winter and equinoctial anomalies depending on the phases of the sunspot solar cycle. foF2 exhibits a semiannual variation during the minimum phase of the sunspot solar cycle 20 and the increasing and decreasing phases of solar cycle 20, 21 and 22. foF1 exhibits an annual variation during the maximum phase of solar cycles 20, 21 and 22. h F2 shows a regular seasonal variation for the different solar cycles while h F1 exhibits a large magnitude dispersion from one sunspot cycle to another. The long term variations consist in an increase of 1.0 MHz for foF2 and of 0.36 MHz for foF1. foE increases 0.53 MHz from solar cycle 20 to solar cycle 21 and then decreases −0.23 MHz during the decreasing phase of cycle 21. The diurnal variation of the critical frequency foF2 shows minima at 05:00 LT and maxima around 14:00 LT. foF1 and foE have a maximum around noon. The diurnal variation of h F2 exhibits a maximum around noon. The main features of h F1 are a minimum near noon and the maximum near midnight. Other

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f_oF₂long‐term trend linked to Earth's magnetic field secular variation at a station under the northern crest of the equatorial ionization anomaly

2016

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Long‐term trend of the critical frequency of the F2 ionospheric region, foF2, at Phu Thuy station (21.03°N, 105.96°E), Vietnam, located under the northern crest of the equatorial ionization anomaly, EIA, is studied. Annual mean data are analyzed at 04 LT and 12 LT for the period 1962–2002 using monthly median values and monthly mean values during magnetically quiet days (am < 20). In both cases we obtain similar trends at 4 LT and 12 LT, which we interpret as an absence of geomagnetic activity effect over trends. The positive trends obtained are not consistent with the negative values expected from greenhouse gases effect at this layer of the upper atmosphere. The increasing trend observed at 12 LT is qualitatively in agreement with the expected effect of the secular displacement of the dip equator over the EIA latitudinal profile. At 04 LT, when the EIA is absent, the positive trend is in qualitative agreement with the secular variation of the Earth's magnetic field inclination, I, and the consequent increase of the sin(I)cos(I) factor at the corresponding location.

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H. Pham Thi Thu

Sq field characteristics at Phu Thuy, Vietnam, during solar cycle 23: comparisons with Sq field in other longitude sectors

Sun-Earth System Interaction studies over Vietnam: an international cooperative project

Time variations of the ionosphere at the northern tropical crest of ionization at Phu Thuy, Vietnam

f_oF₂long‐term trend linked to Earth's magnetic field secular variation at a station under the northern crest of the equatorial ionization anomaly

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H. Pham Thi Thu

Sq field characteristics at Phu Thuy, Vietnam, during solar cycle 23: comparisons with Sq field in other longitude sectors

Sun-Earth System Interaction studies over Vietnam: an international cooperative project

Time variations of the ionosphere at the northern tropical crest of ionization at Phu Thuy, Vietnam

foF2long‐term trend linked to Earth's magnetic field secular variation at a station under the northern crest of the equatorial ionization anomaly

Contact Info

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f_oF₂long‐term trend linked to Earth's magnetic field secular variation at a station under the northern crest of the equatorial ionization anomaly