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최철성,CHOI CHUL-SUNG 한국천문학회 2000 天文學論叢 Vol.15 No.suppl1
X-ray astronomy deals with measurements of the electromagnetic radiation in the energy range of $E\~0.1-100 keV (\lambda\~0.12-120{\AA})$. The wavelength of X-ray is comparable to the size of atoms, so that the photons in the X-ray range are usually produced and absorbed by the atomic processes. Since the launch of the first X-ray astronomy satellite 'Uhuru' in 1970, technological advances in a launch capability and a detection capability make X-ray astronomy one of the most rapidly evolving fields of astronomical research. Particularly, a spectral resolving power $E/{\Delta}E$ has been increased by an order of 2 - 3 (in the energy range of 0.1 - 10 keV) during the past 30years. In this paper, I briefly review a developing process of the resolving power and spectroscopic techniques. Then I describe important emission/absorption lines in X-ray astronomy, as well as diagnostics of gas property with line parameters.
최철성 한국천문학회 2000 天文學論叢 Vol.15 No.2
X-ray astronomy deals with measurements of the electromagnetic radiation in the energy range of E \~ 0.1 − 100 k e V ( λ \~ 0.12 − 120 \AA ) . The wavelength of X-ray is comparable to the size of atoms, so that the photons in the X-ray range are usually produced and absorbed by the atomic processes. Since the launch of the first X-ray astronomy satellite 'Uhuru' in 1970, technological advances in a launch capability and a detection capability make X-ray astronomy one of the most rapidly evolving fields of astronomical research. Particularly, a spectral resolving power E / Δ E has been increased by an order of 2 - 3 (in the energy range of 0.1 - 10 keV) during the past 30years. In this paper, I briefly review a developing process of the resolving power and spectroscopic techniques. Then I describe important emission/absorption lines in X-ray astronomy, as well as diagnostics of gas property with line parameters.
남옥원,최철성,문신행 경북대학교 센서기술연구소 1991 센서技術學術大會論文集 Vol.2 No.1
In order to observe celestial X-ray sources, we are going to develop a large area proportional counter as a payload of space vehicles such as sounding rocket, balloon and scientific satellite. In this study, we reviewed the proporties of X-ray sources and cosmic background, and we studied the conceptual design for a large area proportional counter.