Satellite-based In-situ Monitoring of Space Weather: KSEM Mission and Data Application
-
-
저자
오대현
김지영
이혜숙
장근일
-
제어번호
105925696
-
학술지명
Journal of Astronomy and Space Sciences
-
권호사항
Vol.
35
No.
3
[
2018
]
-
발행처
한국우주과학회
-
발행처 URL
http://ksss.or.kr
-
자료유형
학술저널
-
수록면
175-183
-
언어
English
-
출판년도
2018
-
등재정보
KCI등재
-
소장기관
경북대학교 중앙도서관
고려대학교 과학도서관
-
판매처
'
Satellite-based In-situ Monitoring of Space Weather: KSEM Mission and Data Application' 의 참고문헌
-
plasma conditions during the Galaxy 15 anomaly and the possibility of ESD from subsurface charging
-
Three-dimensional modeling of the radiation belts using the Versatile Electron Radiation Belt (VERB) code
-
The magnetic storm of March 24, 1940 - Effect in the power system
-
The in-flight determination of spacecraft magnetic field zeros
-
The great magnetic storm of march 24
-
The engineering radiation monitor for the radiation belt storm probes mission
-
-
The STEREO/IMPACT magnetic field experiment
-
Telluric currents: the natural environment and interactions with man-made systems, The Earth's Electrical Environment
-
Space-based magnetometers
-
Space weather radiation effects on geostationary satellite solid-state power amplifiers
-
Space weather magnetometer set with automated AC spacecraft field correction for Geo-Kompsat-2A
-
Space weather conditions during the Galaxy 15 spacecraft anomaly
-
Results from the Galileo Giove-a radiation monitors and comparison with existing radiation belt models
-
Response of magnetic fields at geosynchronous orbit and on the ground to the sudden changes of IMF <TEX>$B_Z$</TEX>
-
Radiation observations with satellite 1958 <TEX>${\varepsilon}$</TEX>
-
Quiet time variability of the geosynchronous magnetic field and its response to the solar wind
-
Quantifying the daily economic impact of extreme space weather due to failure in electricity transmission infrastructure
-
-
Plasmapause location under quiet geomagnetic conditions (Kp <TEX>${\leq}$</TEX> 1): THEMIS observations
-
Planetary magnetic field measurements: missions and instrumentation
-
Outage of the L-4 system and the geomagnetic disturbance of August 4, 1972
-
Monitoring space weather with the GOES magnetometers
-
Magnetospheric configurations from a high-resolution data-based magnetic field model
-
Lion roars and nonoscillatory drift mirror waves in the magnetosheath
-
Introducing the new generation of chinese geostationary weather satellites, Fengyun-4
-
Introducing GOES-I: the first of a new generation of geostationary operational environmental satellites
-
In-flight Calibration of Space-borne Magnetometers
-
Geosynchronous magnetic field response to the large and fast solar wind dynamic pressure change
-
Geosynchronous magnetic field response to solar wind dynamic pressure pulse
-
Geant4 - A Simulation Toolkit
-
-
GEO-KOMPSAT-2A Spacecraft Charging Monitor Algorithm Theoretical Basis Document, Version 0.1
-
GEO-KOMPSAT-2A Magnetospheric Particle Environment Algorithm Theoretical Basis Document, Version 0.1
-
GEO-KOMPSAT-2A Kp Index Prediction Algorithm Theoretical Basis Document, Version 1.0
-
GEO-KOMPSAT-2A Electron Flux Prediction Algorithm Theoretical Basis Document, Version 1.1
-
GEO-KOMPSAT-2A Dst Index Prediction Algorithm Theoretical Basis Document, Version 1.0
-
Exploring the use of Alfven waves in magnetometer at geosynchronous orbit
-
Existence of electromagnetic-hydrodynamic waves
-
Evolution of electron fluxes in the outer radiation belt computed with the VERB code
-
Empirical modeling of the quiet and storm time geosynchronous magnetic field
-
Effects of interplanetary magnetic field z component and the solar wind dynamic pressure on the geosynchronous magnetic field
-
Drift mirror instability of the magnetosphere
-
Automatic parameterization for magnetometer zero offset determination
-
Analysis of GEO spacecraft anomalies: space weather relationships
-
An advanced approach to finding magnetometer zero levels in the interplanetary magnetic field
-
A quantitative assessment of empirical magnetic field models at geosynchronous orbit during magnetic storms
'
Satellite-based In-situ Monitoring of Space Weather: KSEM Mission and Data Application'
의 유사주제(
) 논문