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| 운동학적 거리× | 천문 측정학 (시차)× | 펄서 타이밍 배열× | |
|---|---|---|---|
| 분야 | 천문학 | 천문학 | 천문학 |
| 계열 | Process / pipeline | Process / pipeline | Process / pipeline |
| 기원 연도≠ | 1957 | 1838 | 1979 |
| 창시자≠ | Bert Westerhout | Friedrich Wilhelm Bessel | Stephen Detweiler |
| 유형≠ | Kinematic measurement method | Astrometric distance measurement | Observational timing method |
| 원전≠ | Reid, M. J., et al. (2014). Trigonometric parallaxes of high mass star forming regions: the structure and kinematics of the Milky Way. Astrophysical Journal, 783(2), 130. DOI ↗ | ESA (1997). The Hipparcos and Tycho Catalogues. Astrometric and photometric star catalogue. European Space Agency Technical Reports, SP-1200. link ↗ | Sazhin, M. V. (1978). Opportunities for detecting ultralong gravitational waves. Soviet Astronomy, 22, 36-38. link ↗ |
| 별칭 | Galactic Kinematic Distances, Rotation-Curve Distance, Kinematic Parallax | Stellar Parallax, Trigonometric Parallax, Parallax Distance Method | PTA, Millisecond Pulsar Timing, Pulsar Timing Residuals |
| 관련 | 3 | 3 | 3 |
| 요약≠ | Kinematic distance is a method for estimating distances to objects in the Milky Way using their observed radial velocities and the known rotation curve of the Galaxy. Developed in the 1950s by Bert Westerhout and others, this technique enables distance determination to distant molecular clouds and masers without trigonometric parallax or individual object luminosities. | Astrometric parallax is the foundational geometric method for measuring distances to nearby stars, based on observing the apparent shift in a star's position as Earth orbits the Sun. First successfully demonstrated by Friedrich Wilhelm Bessel in 1838 for the star 61 Cygni, parallax remains the most direct and reliable distance measurement in astronomy, anchoring the entire cosmic distance ladder. | A pulsar timing array uses multiple millisecond pulsars as a distributed network of gravitational wave detectors across the galaxy. Proposed theoretically by Stephen Detweiler in 1979, this method exploits the extraordinary timing precision of pulsars to detect the subtle spacetime distortions caused by gravitational waves. In 2023, the first evidence for a stochastic background of gravitational waves was announced using pulsar timing arrays. |
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