RT @AstroAhura: These overly massive BH galaxies should have a unique spectral signature (see https://t.co/dhFk0CQTS3 by @kssbAstro) whose…
RT @NatureAstronomy: The James Webb Space Telescope may identify galaxies hosting direct-collapse black holes at z~15 with 20,000-second to…
RT @NatureAstronomy: The James Webb Space Telescope may identify galaxies hosting direct-collapse black holes at z~15 with 20,000-second to…
RT @NatureJapan: Nature Astronomy 12月号「初期宇宙における大質量ブラックホール形成の観測的特徴」https://t.co/PPBfS4PKhh #NatAstron #ジェイムズウエッブ宇宙望遠鏡 #赤方偏移 #大質量ブラックホール
RT @NatureJapan: Nature Astronomy 12月号「初期宇宙における大質量ブラックホール形成の観測的特徴」https://t.co/PPBfS4PKhh #NatAstron #ジェイムズウエッブ宇宙望遠鏡 #赤方偏移 #大質量ブラックホール
Nature Astronomy 12月号「初期宇宙における大質量ブラックホール形成の観測的特徴」https://t.co/PPBfS4PKhh #NatAstron #ジェイムズウエッブ宇宙望遠鏡 #赤方偏移 #大質量ブラックホール
RT @Kyukimasa: 初期宇宙のDCBH(direct collapse black holes:直接崩壊ブラックホール)観測予測 https://t.co/VCKshplC7L 冷たいガスが集まって直接ブラックホールになって高エネルギーの放射ある周囲で恒星が形成される…
RT @Kyukimasa: 初期宇宙のDCBH(direct collapse black holes:直接崩壊ブラックホール)観測予測 https://t.co/VCKshplC7L 冷たいガスが集まって直接ブラックホールになって高エネルギーの放射ある周囲で恒星が形成される…
@Kyukimasa You can also read the public version here: https://t.co/N0zeNAhcFH. The simulation shows the first ~40 million years after the initial formation of a massive black hole in the early Universe and how it might be observed by telescopes. This would
RT @Kyukimasa: 初期宇宙のDCBH(direct collapse black holes:直接崩壊ブラックホール)観測予測 https://t.co/VCKshplC7L 冷たいガスが集まって直接ブラックホールになって高エネルギーの放射ある周囲で恒星が形成される…
RT @Kyukimasa: 初期宇宙のDCBH(direct collapse black holes:直接崩壊ブラックホール)観測予測 https://t.co/VCKshplC7L 冷たいガスが集まって直接ブラックホールになって高エネルギーの放射ある周囲で恒星が形成される…
RT @Kyukimasa: 初期宇宙のDCBH(direct collapse black holes:直接崩壊ブラックホール)観測予測 https://t.co/VCKshplC7L 冷たいガスが集まって直接ブラックホールになって高エネルギーの放射ある周囲で恒星が形成される…
RT @Kyukimasa: 初期宇宙のDCBH(direct collapse black holes:直接崩壊ブラックホール)観測予測 https://t.co/VCKshplC7L 冷たいガスが集まって直接ブラックホールになって高エネルギーの放射ある周囲で恒星が形成される…
初期宇宙のDCBH(direct collapse black holes:直接崩壊ブラックホール)観測予測 https://t.co/VCKshplC7L 冷たいガスが集まって直接ブラックホールになって高エネルギーの放射ある周囲で恒星が形成されるとかそんな予測(普通の活動銀河とは見た目違うらしい)
Congratulations to @kssbAstro!
RT @KIPAC1: Beautiful article by new Porat Fellow @kssbAstro at KIPAC (working with KIPAC alum @AstroAhura) proposes a new way to form bla…
RT @KIPAC1: Beautiful article by new Porat Fellow @kssbAstro at KIPAC (working with KIPAC alum @AstroAhura) proposes a new way to form bla…
RT @KIPAC1: Beautiful article by new Porat Fellow @kssbAstro at KIPAC (working with KIPAC alum @AstroAhura) proposes a new way to form bla…
RT @KIPAC1: Beautiful article by new Porat Fellow @kssbAstro at KIPAC (working with KIPAC alum @AstroAhura) proposes a new way to form bla…
Beautiful article by new Porat Fellow @kssbAstro at KIPAC (working with KIPAC alum @AstroAhura) proposes a new way to form black holes and a new way to detect them with @NASAWebb. 🛰🌌
Observational signatures of massive black hole formation in the early universe. https://t.co/rQWj6m6dYV
@AstroAhura @KIPAC1 @NASAWebb Here it is: https://t.co/Rj3RjhDNXY
RT @NatureAstronomy: The James Webb Space Telescope may identify galaxies hosting direct-collapse black holes at z~15 with 20,000-second to…
RT @AstroAhura: If some black holes are born massive, what do their galaxies look like? After the BH forms, it triggers metal-free star for…
RT @AstroAhura: If some black holes are born massive, what do their galaxies look like? After the BH forms, it triggers metal-free star for…
RT @AstroAhura: If some black holes are born massive, what do their galaxies look like? After the BH forms, it triggers metal-free star for…
RT @AstroAhura: If some black holes are born massive, what do their galaxies look like? After the BH forms, it triggers metal-free star for…
RT @AstroAhura: If some black holes are born massive, what do their galaxies look like? After the BH forms, it triggers metal-free star for…
RT @AstroAhura: If some black holes are born massive, what do their galaxies look like? After the BH forms, it triggers metal-free star for…
RT @AstroAhura: If some black holes are born massive, what do their galaxies look like? After the BH forms, it triggers metal-free star for…
RT @NatureAstronomy: The James Webb Space Telescope may identify galaxies hosting direct-collapse black holes at z~15 with 20,000-second to…
RT @AstroAhura: If some black holes are born massive, what do their galaxies look like? After the BH forms, it triggers metal-free star for…
RT @NatureAstronomy: The James Webb Space Telescope may identify galaxies hosting direct-collapse black holes at z~15 with 20,000-second to…
RT @NatureAstronomy: The James Webb Space Telescope may identify galaxies hosting direct-collapse black holes at z~15 with 20,000-second to…
RT @AstroAhura: If some black holes are born massive, what do their galaxies look like? After the BH forms, it triggers metal-free star for…
RT @AstroAhura: If some black holes are born massive, what do their galaxies look like? After the BH forms, it triggers metal-free star for…
RT @AstroAhura: If some black holes are born massive, what do their galaxies look like? After the BH forms, it triggers metal-free star for…
RT @AstroAhura: If some black holes are born massive, what do their galaxies look like? After the BH forms, it triggers metal-free star for…
RT @AstroAhura: If some black holes are born massive, what do their galaxies look like? After the BH forms, it triggers metal-free star for…
Observational signatures of massive black hole formation in the early Universe https://t.co/H8ihqgS9hj via @NatureAstronomy https://t.co/nkdFaxEe6X
RT @AstroAhura: If some black holes are born massive, what do their galaxies look like? After the BH forms, it triggers metal-free star for…
The James Webb Space Telescope may identify galaxies hosting direct-collapse black holes at z~15 with 20,000-second total exposure time: Barrow et al. https://t.co/hiW2T8MrFI