S.-R. Zhang scite author profile

S.-R. Zhang

3Publications

102Citation Statements Received

78Citation Statements Given

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Massachusetts Institute of Technology, Northeast Radio Observatory Corporation

Publications

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Variations of topside ionospheric scale heights over Millstone Hill during the 30-day incoherent scatter radar experiment

et al. 2007

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Abstract.A 30-day incoherent scatter radar (ISR) experiment was conducted at Millstone Hill (288.5 • E, 42.6 • N) from 4 October to 4 November 2002. The altitude profiles of electron density N e , ion and electron temperature (T i and T e ), and line-of-sight velocity during this experiment were processed to deduce the topside plasma scale height H p , vertical scale height VSH, Chapman scale height H m , ion velocity, and the relative altitude gradient of plasma temperature (dT p /dh)/T p , as well as the F 2 layer electron density (N m F 2 ) and height (h m F 2 ). These data are analyzed to explore the variations of the ionosphere over Millstone Hill under geomagnetically quiet and disturbed conditions. Results show that ionospheric parameters generally follow their median behavior under geomagnetically quiet conditions, while the main feature of the scale heights, as well as other parameters, deviated significantly from their median behaviors under disturbed conditions. The enhanced variability of ionospheric scale heights during the storm-times suggests that the geomagnetic activity has a major impact on the behavior of ionospheric scale heights, as well as the shape of the topside electron density profiles. Over Millstone Hill, the diurnal behaviors of the median VSH and H m are very similar to each other and are not so tightly correlated with that of the plasma scale height H p or the plasma temperature. The present study confirms the sensitivity of the ionospheric scale heights over Millstone Hill to thermal structure and dynamics. The values of VSH/H p tend to decrease as (dT p /dh)/T p becomes larger or the dynamic processes become enhanced.

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Summer‐winter hemispheric asymmetry of the sudden increase in ionospheric total electron content and of the O/N₂ ratio: Solar activity dependence

et al. 2007

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[1] The solar activity dependence of the summer-winter hemispheric asymmetry (SWHA) of the sudden increase in total electron content (SITEC) due to solar flares and of the O/N 2 ratio is statistically analyzed using global GPS-total electron content data and TIMED Global Ultraviolet Imager column O/N 2 ratio data. We focus on observations with nonnegligible residuals of the solar zenith angle (SZA) dependency of SITEC. We

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Ionospheric climatology and variability from long-term and multiple incoherent scatter radar observations: variability

Zhang

Holt

2008

Ann. Geophys.

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Abstract. Long-term incoherent scatter radar (ISR) observations are used to study ionospheric variability for two midlatitude sites, Millstone Hill and St. Santin. This work is based on our prior efforts which resulted in an empirical model system, ISR Ionospheric Model (ISRIM), of climatology (and now variability) of the ionosphere. We assume that the variability can be expressed in three terms, the background, solar activity and geomagnetic activity components, each of which is a function of local time, season and height. So the background variability is ascribed mostly to the day-to-day variability arising from non solar and geomagnetic activity sources.(1) The background variability shows clear differences between the bottomside and the topside and changes with season. The Ne variability is low in the bottomside in summer, and high in the topside in winter and spring. The plasma temperature variability increases with height, and reaches a minimum in summer. Ti variability has a marked maximum in spring; at Millstone Hill it is twice as high as at St. Santin. (2) For enhanced solar activity conditions, the overall variability in Ne is reduced in the bottomside of the ionosphere and increases in the topside. For Te, the solar activity enhancement reduces the variability in seasons of high electron density (winter and equinox) at altitudes of high electron density (near the F2-peak). For Ti, however, while the variability tends to decrease at Millstone Hill (except for altitudes near 200 km), it increases at St. Santin for altitudes up to 350 km; the solar flux influence on the variability tends to be stronger at St. Santin than at Millstone Hill.

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S.-R. Zhang

Variations of topside ionospheric scale heights over Millstone Hill during the 30-day incoherent scatter radar experiment

Summer‐winter hemispheric asymmetry of the sudden increase in ionospheric total electron content and of the O/N₂ ratio: Solar activity dependence

Ionospheric climatology and variability from long-term and multiple incoherent scatter radar observations: variability

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S.-R. Zhang

Variations of topside ionospheric scale heights over Millstone Hill during the 30-day incoherent scatter radar experiment

Summer‐winter hemispheric asymmetry of the sudden increase in ionospheric total electron content and of the O/N2 ratio: Solar activity dependence

Ionospheric climatology and variability from long-term and multiple incoherent scatter radar observations: variability

Contact Info

Product

Resources

About

Summer‐winter hemispheric asymmetry of the sudden increase in ionospheric total electron content and of the O/N₂ ratio: Solar activity dependence