Sondrestrom 비간섭 산란 레이더 자료를 이용한 극지방 전리층의 기후학적 특성 연구

곽영실,안병호 한국기상학회 2001 대기 Vol.11 No.3

NCAR-TIEGCM을 이용한 이온권과 열권의 상호작용 연구 : 행성간 자기장(IMF)에 따른 고위도 하부 열권의 운동량 강제에 대한 연구

곽영실,Arthur D. Richmond,안병호,원영인 한국우주과학회 2005 Journal of Astronomy and Space Sciences Vol.22 No.2

전리층 전기전도도의 추정과 관련된 불확실성

곽영실,안병호 한국우주과학회 2002 Journal of Astronomy and Space Sciences Vol.19 No.4

전리층 전기전도도의 추정과 관련된 불확실성

곽영실,안병호 한국우주과학회 2002 Journal of Astronomy and Space Sciences Vol.24 No.1

Sondrestrom 비간섭 산란 레이더로부터 구한 전자밀도분포를 이용하여, 전리층의 전기전도도를 추정할때 야기되는 불확실성들을 검토하였다. 첫째, 실제로 관측된 전자밀도와 전자와 양이온의 온도차이 및 Debye length효과를 보정한 전자밀도를 사용했을 경우에 야기되는 전리층 전기전도도의 차이점을 비교하였다. 보정한 전자밀도로부터 추정된 전기전도도는 실측 전자밀도를 사용했을 때 보다 큰 값을 나타내었다. 둘째, 전기전도도 추정에 이용되는 전자-중성대기 및 양이 온-중성대기의 충돌빈도모델에 따른 차이점도 비교해 보았다. 약 110km 이하의 고도에서는 전기전도도가 충돌빈도모델에 크게 의존하지 않았지만, 약 110km 이상의 고도에서는 이용된 모델에 따라 전기전도도의 값이 달랐다. 셋째, 전자 및 양이온의 부정확한 온도측정이 전기전도도의 추정에 미치는 영향을 알아보았다. 전자 및 양이온의 온도측정에 약 10% 이내의 오차가 포함된 경우가 전기전도도의 계산에는 큰 영향을 미치지 않았다. 마지막으로, 고도 적분된 전기전도도의 추정시 적용되는 적분 구간에 대해서도 검토해 본 결과, Hall 및 Pedersen 전기전도도의 값이 각각 하부 및 상부 적분 고도의 선택에 매우 민감하다는 것이 밝혀졌다. Various uncertainties involved in ionospheric conductivity estimation utilizing the electron density profile obtained from the Sondrestrom incoherent scatter radar are examined. First, we compare the conductivity which is based on raw electron density and the one based on corrected electron density that takes into account the effects of the difference between the electron and ion temperatures and the Debye length. The corrected electron density yields higher Pedersen and Hall conductivities than the raw electron density does. Second, the dependence of collision frequency model on the conductivity estimation is examined. Below 110 km conductivity does not depend significantly on collision frequency models. Above 110 km, however, the collision models affect the conductivity estimation. Third, the influence of the electron and ion temperatures on the conductivity estimation is examined. Electron and ion temperatures carrying an error of about 10% do not seem to affect significantly the conductivity estimation. Fourth, also examined is the effect of the choice of the altitude range of integration in calculating the height-integrated conductivity, conductance. It has been demonstrated that the lower and upper boundaries of the integration are quite sensitive to the estimation of the Hall and Pedersen conductances, respectively.

Contributions of Heating and Forcing to the High-Latitude Lower Thermosphere: Dependence on the Interplanetary Magnetic Field

곽영실,Arthur Richmond,안병호,조경석 한국우주과학회 2010 Journal of Astronomy and Space Sciences Vol.27 No.3

To better understand the physical processes that maintain the high-latitude lower thermospheric dynamics, we have identified relative contributions of the momentum forcing and the heating to the high-latitude lower thermospheric winds depending on the interplanetary magnetic field (IMF) and altitude. For this study, we performed a term analysis of the potential vorticity equation for the high-latitude neutral wind field in the lower thermosphere during the southern summertime for different IMF conditions, with the aid of the National Center for Atmospheric Research Thermosphere-Ionosphere Electrodynamics General Circulation Model (NCAR-TIEGCM). Difference potential vorticity forcing and heating terms, obtained by subtracting values with zero IMF from those with non-zero IMF, are influenced by the IMF conditions. The difference forcing is more significant for strong IMF By condition than for strong IMF Bz condition. For negative or positive By conditions, the difference forcings in the polar cap are larger by a factor of about 2 than those in the auroral region. The difference heating is the most significant for negative IMF Bz condition, and the difference heatings in the auroral region are larger by a factor of about 1.5 than those in the polar cap region. The magnitudes of the difference forcing and heating decrease rapidly with descending altitudes. It is confirmed that the contribution of the forcing to the high-latitude lower thermospheric dynamics is stronger than the contribution of the heating to it. Especially, it is obvious that the contribution of the forcing to the dynamics is much larger in the polar cap region than in the auroral region and at higher altitude than at lower altitude. It is evident that when Bz is negative condition the contribution of the forcing is the lowest and the contribution of the heating is the highest among the different IMF conditions.

Nonmigrating tidal characteristics in the thermospheric neutral mass density

곽영실,길효섭,이우경,오성준,양태용,Kwak, Young-Sil,Kil, Hyosub,Lee, Woo-Kyoung,Oh, Seung-Jun,Yang, Tae-Yong 한국천문학회 2012 天文學會報 Vol.37 No.2

The wave number 4 (wave-4) and wave number 3 (wave-3) longitudinal structures in the thermospheric neutral mass density are understood as tidal structures driven by diurnal eastward-propagating zonal wave number 3 (DE3) and wave number 2 (DE2) tides, respectively. However, those structures have been identified using data from limited time periods, and the consistency and recurrence of those structures have not yet been examined using long-term observation data. We examine the persistence of those structures by analyzing the neutral mass density data for the years 2001-2008 taken by the CHAllenging Minisatellite Payload (CHAMP) satellite. During years of low solar activity, the amplitude of the wave-4 structure is pronounced during August and September, and the wave-4 phase shows a consistent eastward phase progression of $90^{\circ}$ within 24 h local time in different months and years. During years of high solar activity, the wave-4 amplitude is small and does not show a distinctive annual pattern, but the tendency of the eastward phase shift at a rate of $90^{\circ}$/24 h exists. Thus the DE3 signature in the wave-4 structure is considered as a persistent feature. The wave-3 structure is a weak feature in most months and years. The amplitude and phase of the wave-3 structure do not show a notable solar cycle dependence. Among the contributing tidal modes to the wave-3 structure, the DE2 amplitude is most pronounced. This result may suggest that the DE2 signature, although it is a weak signature, is a perceivable persistent feature in the thermosphere.

Variation of the Hemispheric Asymmetry of the Equatorial Ionization Anomaly with Solar Cycle

곽영실,길효섭,이우경,양태용 한국우주과학회 2019 Journal of Astronomy and Space Sciences Vol.36 No.3

In solstices during the solar minimum, the hemispheric difference of the equatorial ionization anomaly (EIA) intensity (hereafter hemispheric asymmetry) is understood as being opposite in the morning and afternoon. This phenomenon is explained by the temporal variation of the combined effects of the fountain process and interhemispheric wind. However, the mechanism applied to the observations during the solar minimum has not yet been validated with observations made during other periods of the solar cycle. We investigate the variability of the hemispheric asymmetry with local time (LT), altitude, season, and solar cycle using the electron density taken by the CHAllenging Minisatellite Payload satellite and the global total electron content (TEC) maps acquired during 2001–2008. The electron density profiles provided by the Constellation Observing System for Meteorology, Ionosphere, and Climate satellites during 2007–2008 are also used to investigate the variation of the hemispheric asymmetry with altitude during the solar minimum. During the solar minimum, the location of a stronger EIA moves from the winter hemisphere to the summer hemisphere around 1200–1400 LT. The reversal of the hemispheric asymmetry is more clearly visible in the F-peak density than in TEC or in topside plasma density. During the solar maximum, the EIA in the winter hemisphere is stronger than that in the summer hemisphere in both the morning and afternoon. When the location of a stronger EIA in the afternoon is viewed as a function of the year, the transition from the winter hemisphere to the summer hemisphere occurs near 2004 (yearly average F10.7 index = 106). We discuss the mechanisms that cause the variation of the hemispheric asymmetry with LT and solar cycle.

烏梅의 肝디스토마 殺蟲性 물질에 관한 硏究

곽영실,류성호,백병걸,이재구,안병준 충남대학교 약학대학 의약품개발연구소 1985 藥學論文集 Vol.1 No.-

The anthelmintic substance of the roasted fruits of Prunus mume against Clonorchis sinensis was isolated and its structure was identified by chemical and physical methods. The results obtained from the experiments are as follows: 1) The methanol extract of the roasted fruits of P. mume was fractionated into four parts: petroleum ether, ethyl acetate and water soluble part. Among these, etherial fraction was found to have strong wormicidal effect on liberated metacercarial of Clonorchis sinensis. 2) From the etherial fraction, the wormicidal substance was isolated by silica gel, polyamide and sephadex column chromatography and identified to be 5-hydroxymethyfurfural (5-HMF) by chemical and spectral data. 3) 5-HMF was synthesized and administered to the rabbits infected with C. sinensis. On the 2nd day after administration, the EPG (eggs per gram in feces) reached to the maximal value. Among the adult worms isolated from the bile duct of the treated animal, 84% of worms were damaged morphologically. 4) The content of 5-HMF in the fruits of P. mume which were roasted in an oven at 90~110℃ for 52 hours and that in the fresh fruits was evaluated by HPLC. The content of 5-HMF was 0.8% in the roasted fruits and 0.02% in the fresh ones.

고위도 열권 바람에서 소용돌이를 일으키는 강제항들에 대한 분석

곽영실,안병호,김관혁 한국우주과학회 2008 Journal of Astronomy and Space Sciences Vol.25 No.4

고위도 하부 열권 바람의 소용돌이도와 발산 분석: 행성간 자기장(IMF)에 대한 의존도

곽영실,이재진,안병호,황정아,김관혁,조경석 한국우주과학회 2008 Journal of Astronomy and Space Sciences Vol.25 No.4