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1000 results for “radioastro”
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📡 A radio-astronomy first: a CfA + NSF NRAO team has directly detected the imprint of interstellar turbulence on a distant quasar — TXS 2005+403. They re-analysed archival data from 10 VLBA antennas (2010–2019). Plasma in the Cygnus region distorts the radio image on scales the size of our Solar System. (May 22, 2026)
🔗 https://phys.org/news/2026-05-astronomers-turbulence-stars-distorts.html
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📡 A radio-astronomy first: a CfA + NSF NRAO team has directly detected the imprint of interstellar turbulence on a distant quasar — TXS 2005+403. They re-analysed archival data from 10 VLBA antennas (2010–2019). Plasma in the Cygnus region distorts the radio image on scales the size of our Solar System. (May 22, 2026)
🔗 https://phys.org/news/2026-05-astronomers-turbulence-stars-distorts.html
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📡 A radio-astronomy first: a CfA + NSF NRAO team has directly detected the imprint of interstellar turbulence on a distant quasar — TXS 2005+403. They re-analysed archival data from 10 VLBA antennas (2010–2019). Plasma in the Cygnus region distorts the radio image on scales the size of our Solar System. (May 22, 2026)
🔗 https://phys.org/news/2026-05-astronomers-turbulence-stars-distorts.html
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📡 A radio-astronomy first: a CfA + NSF NRAO team has directly detected the imprint of interstellar turbulence on a distant quasar — TXS 2005+403. They re-analysed archival data from 10 VLBA antennas (2010–2019). Plasma in the Cygnus region distorts the radio image on scales the size of our Solar System. (May 22, 2026)
🔗 https://phys.org/news/2026-05-astronomers-turbulence-stars-distorts.html
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📡 The CARMELo radio meteor network recorded 21 radio echoes within 15 seconds of a brilliant fireball (mag −13) over the Tyrrhenian Sea on Apr 23, 2026. The network runs on SDR receivers with Raspberry Pi – citizen science radio astronomy in action. (Report May 7, 2026)
🔗 https://www.emeteornews.net/2026/05/07/april-2026-carmelo-report/
#RadioAstronomy #CitizenScience #DataScience #Astronomy #Space
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📡 The CARMELo radio meteor network recorded 21 radio echoes within 15 seconds of a brilliant fireball (mag −13) over the Tyrrhenian Sea on Apr 23, 2026. The network runs on SDR receivers with Raspberry Pi – citizen science radio astronomy in action. (Report May 7, 2026)
🔗 https://www.emeteornews.net/2026/05/07/april-2026-carmelo-report/
#RadioAstronomy #CitizenScience #DataScience #Astronomy #Space
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📡 The CARMELo radio meteor network recorded 21 radio echoes within 15 seconds of a brilliant fireball (mag −13) over the Tyrrhenian Sea on Apr 23, 2026. The network runs on SDR receivers with Raspberry Pi – citizen science radio astronomy in action. (Report May 7, 2026)
🔗 https://www.emeteornews.net/2026/05/07/april-2026-carmelo-report/
#RadioAstronomy #CitizenScience #DataScience #Astronomy #Space
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📡 The CARMELo radio meteor network recorded 21 radio echoes within 15 seconds of a brilliant fireball (mag −13) over the Tyrrhenian Sea on Apr 23, 2026. The network runs on SDR receivers with Raspberry Pi – citizen science radio astronomy in action. (Report May 7, 2026)
🔗 https://www.emeteornews.net/2026/05/07/april-2026-carmelo-report/
#RadioAstronomy #CitizenScience #DataScience #Astronomy #Space
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📡 After more than 10 years of upgrades, MIT's 37-meter Haystack radio telescope returns to front-line research. It will hunt asteroids, track black holes via VLBI, and search for complex organic molecules in interstellar space. It also feeds the ngEHT (next-gen Event Horizon Telescope) network. 📅 May 19, 2026
👉 https://phys.org/news/2026-05-years-legendary-telescope-black-holes.html
#RadioAstronomy #Astronomy #Science -
📡 After more than 10 years of upgrades, MIT's 37-meter Haystack radio telescope returns to front-line research. It will hunt asteroids, track black holes via VLBI, and search for complex organic molecules in interstellar space. It also feeds the ngEHT (next-gen Event Horizon Telescope) network. 📅 May 19, 2026
👉 https://phys.org/news/2026-05-years-legendary-telescope-black-holes.html
#RadioAstronomy #Astronomy #Science -
📡 After more than 10 years of upgrades, MIT's 37-meter Haystack radio telescope returns to front-line research. It will hunt asteroids, track black holes via VLBI, and search for complex organic molecules in interstellar space. It also feeds the ngEHT (next-gen Event Horizon Telescope) network. 📅 May 19, 2026
👉 https://phys.org/news/2026-05-years-legendary-telescope-black-holes.html
#RadioAstronomy #Astronomy #Science -
📡 After more than 10 years of upgrades, MIT's 37-meter Haystack radio telescope returns to front-line research. It will hunt asteroids, track black holes via VLBI, and search for complex organic molecules in interstellar space. It also feeds the ngEHT (next-gen Event Horizon Telescope) network. 📅 May 19, 2026
👉 https://phys.org/news/2026-05-years-legendary-telescope-black-holes.html
#RadioAstronomy #Astronomy #Science -
🦋 Europe's LOFAR radio telescope expanded the rare class of "winged" radio galaxies. A systematic search of LoTSS DR2 data turned up 1,024 new systems — 621 confirmed as X- or Z-shaped. These objects help us probe supermassive black-hole mergers and the precession of their jets. 📅 May 4, 2026
👉 https://phys.org/news/2026-05-astronomers-uncover-radio-galaxies-wings.html
#RadioAstronomy #Astronomy #DataScience #Science -
🦋 Europe's LOFAR radio telescope expanded the rare class of "winged" radio galaxies. A systematic search of LoTSS DR2 data turned up 1,024 new systems — 621 confirmed as X- or Z-shaped. These objects help us probe supermassive black-hole mergers and the precession of their jets. 📅 May 4, 2026
👉 https://phys.org/news/2026-05-astronomers-uncover-radio-galaxies-wings.html
#RadioAstronomy #Astronomy #DataScience #Science -
🦋 Europe's LOFAR radio telescope expanded the rare class of "winged" radio galaxies. A systematic search of LoTSS DR2 data turned up 1,024 new systems — 621 confirmed as X- or Z-shaped. These objects help us probe supermassive black-hole mergers and the precession of their jets. 📅 May 4, 2026
👉 https://phys.org/news/2026-05-astronomers-uncover-radio-galaxies-wings.html
#RadioAstronomy #Astronomy #DataScience #Science -
🦋 Europe's LOFAR radio telescope expanded the rare class of "winged" radio galaxies. A systematic search of LoTSS DR2 data turned up 1,024 new systems — 621 confirmed as X- or Z-shaped. These objects help us probe supermassive black-hole mergers and the precession of their jets. 📅 May 4, 2026
👉 https://phys.org/news/2026-05-astronomers-uncover-radio-galaxies-wings.html
#RadioAstronomy #Astronomy #DataScience #Science -
🔭 Astronomers may have spotted the smallest known Odd Radio Circle (ORC). Candidate J1248+4826 in data from Europe's LOFAR telescope shows a ring only ~30,000 pc across with a diffuse envelope. If confirmed, small ORCs are more common than thought — just harder to detect. arXiv preprint (May 6). 📅 May 21, 2026
👉 https://phys.org/news/2026-05-astronomers-tiniest-odd-radio-circle.html
#RadioAstronomy #Astronomy #Science -
🔭 Astronomers may have spotted the smallest known Odd Radio Circle (ORC). Candidate J1248+4826 in data from Europe's LOFAR telescope shows a ring only ~30,000 pc across with a diffuse envelope. If confirmed, small ORCs are more common than thought — just harder to detect. arXiv preprint (May 6). 📅 May 21, 2026
👉 https://phys.org/news/2026-05-astronomers-tiniest-odd-radio-circle.html
#RadioAstronomy #Astronomy #Science -
🔭 Astronomers may have spotted the smallest known Odd Radio Circle (ORC). Candidate J1248+4826 in data from Europe's LOFAR telescope shows a ring only ~30,000 pc across with a diffuse envelope. If confirmed, small ORCs are more common than thought — just harder to detect. arXiv preprint (May 6). 📅 May 21, 2026
👉 https://phys.org/news/2026-05-astronomers-tiniest-odd-radio-circle.html
#RadioAstronomy #Astronomy #Science -
🔭 Astronomers may have spotted the smallest known Odd Radio Circle (ORC). Candidate J1248+4826 in data from Europe's LOFAR telescope shows a ring only ~30,000 pc across with a diffuse envelope. If confirmed, small ORCs are more common than thought — just harder to detect. arXiv preprint (May 6). 📅 May 21, 2026
👉 https://phys.org/news/2026-05-astronomers-tiniest-odd-radio-circle.html
#RadioAstronomy #Astronomy #Science -
🧲 A new Milky Way magnetic-field map reveals a surprising "flip" — in the Sagittarius Arm the field flows opposite to the rest of the galaxy. A UBC Okanagan team used the 15m DRAO radio telescope and Faraday rotation. They released a major open dataset and a new model for the global community. Two ApJ papers. 📅 May 19, 2026
👉 https://www.sciencedaily.com/releases/2026/05/260519224322.htm
#RadioAstronomy #Astronomy #DataScience #Science -
🧲 A new Milky Way magnetic-field map reveals a surprising "flip" — in the Sagittarius Arm the field flows opposite to the rest of the galaxy. A UBC Okanagan team used the 15m DRAO radio telescope and Faraday rotation. They released a major open dataset and a new model for the global community. Two ApJ papers. 📅 May 19, 2026
👉 https://www.sciencedaily.com/releases/2026/05/260519224322.htm
#RadioAstronomy #Astronomy #DataScience #Science -
🧲 A new Milky Way magnetic-field map reveals a surprising "flip" — in the Sagittarius Arm the field flows opposite to the rest of the galaxy. A UBC Okanagan team used the 15m DRAO radio telescope and Faraday rotation. They released a major open dataset and a new model for the global community. Two ApJ papers. 📅 May 19, 2026
👉 https://www.sciencedaily.com/releases/2026/05/260519224322.htm
#RadioAstronomy #Astronomy #DataScience #Science -
🧲 A new Milky Way magnetic-field map reveals a surprising "flip" — in the Sagittarius Arm the field flows opposite to the rest of the galaxy. A UBC Okanagan team used the 15m DRAO radio telescope and Faraday rotation. They released a major open dataset and a new model for the global community. Two ApJ papers. 📅 May 19, 2026
👉 https://www.sciencedaily.com/releases/2026/05/260519224322.htm
#RadioAstronomy #Astronomy #DataScience #Science -
📡 MeerKAT (SA) + uGMRT (India) confirmed a 3.3-million-light-year radio halo in the "quiet" galaxy cluster RXCJ0232–4420. Such a vast halo in a relaxed cluster rewrites our models of cluster turbulence and magnetic fields. Open radio-astronomy data.
🗓️ May 2026
🔗 https://phys.org/news/2026-05-radio-telescopes-million-year-halo.html
#RadioAstronomy #Astronomy #Science #Space
