Study in space exploration collaboration between nations heading into the unknown
Space news (astrophysics & cosmology: x-ray astronomy; spectral resolution of supernovae, accreting binaries, active galactic nuclei, and galaxy clusters) – between 525 – 615 kilometers above the Earth, orbiting every 96 minutes while observing the x-ray universe –
Japan’s 4th cosmic x-ray space mission and the second collaboration between NASA and ISAS to launch into orbit around the Earth, the Advanced Satellite for Cosmology & Astrophysics (ASCA) opened a new window on the x-ray universe. Designed and engineered to conduct x-ray spectroscopy ASCA (formally Astro-D) paved a path for NASA’s Chandra X-ray Observatory, XMM-Newton and Japan’s Suzaku (Astro-EII) to study x-ray emissions across the night sky. This smaller eye on the x-ray universe was the perfect complement to ROSAT’s all-sky survey of around 150,000 x-ray sources and RXTE’s study of the different types observed. Making this little satellite an essential, pivotal mile marker during the human journey to the beginning of space and time. Combined, these space missions have an advanced human understanding of the high-energy universe and revealed mysteries keeping astronomers up at night and peering into the unknown x-ray universe at the cosmos beyond human imagination.
ASCA (Astro-D) launched from Japan’s Kagoshima Space Center at the southern tip of Japan on Kyushu island on February 20, 1993, aboard ISAS’s fourth generation Mu launch system M-3sII. Orbiting at a distance from Earth at perigee of 525 and 615 at apogee, it took only 96 minutes on average for Astro-D to complete one revolution of its nearly circular path around the planet. During a lifespan lasting nearly 8 years, Japan’s little x-ray satellite provided the first images of x-ray emitting objects and detected x-rays from supernova SN 1993J in galaxy M81. The data it supplied allowed astronomers to reveal clues to the origin and formation of accreting binaries, the accretion disks of active galactic nuclei, galaxy clusters, and supernovae.
A tough little satellite says goodbye
This tough little satellite operated until July of 2000 when fluctuations in solar activity caused Earth’s atmosphere to expand. ASCA experienced friction caused by the thinner atmosphere and fell into an uncontrolled spin. Minimal satellite operations continued until around 14:20 on March 2, 2001, when Astro-D fell deeper into the planet’s gravity well and disappeared. Bringing to a close a chapter in space history on a little satellite that opened a window to the x-ray universe and revealed clues to a weird, weird, weird cosmos beyond human imagination.
Follow the space journey of NASA.
Learn more about the space discoveries of ISAS here.
Read about the things Astro-D told us about the accretion disks of active galactic nuclei here.
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