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01:29.282023年06月23日China‘s FAST telescope detects record-breaking binary pulsarSTORY: China‘s FAST telescope detects record-breaking binary pulsarDATELINE: June 23, 2023LENGTH: 00:01:29LOCATION: GUIYANG, ChinaCATEGORY: TECHNOLOGYSHOTLIST:1. various of China‘s FAST telescope2. SOUNDBITE (Chinese): LU JIGUANG, Assistant researcher, National Astronomical Observatories of the Chinese Academy of Sciences (NAOC)STORYLINE:China‘s FAST telescope identified a binary pulsar with an orbital period of 53.3 minutes, the shortest known period for a pulsar binary system.The research, mainly conducted by a team led by scientists from the National Astronomical Observatories of the Chinese Academy of Sciences (NAOC), was published in the journal Nature Wednesday.Pulsars, or fast-spinning neutron stars, originate from the imploded cores of massive dying stars through supernova explosions.The newly detected binary pulsar is named PSR J1953+1844 (M71E)...= 配信日: 2023(令和5)年6月23日、クレジット:新華社/共同通信イメージズ
商品コード: 2023122803927
2023年06月23日(EyesonSci)CHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DETECTION (CN)(230623) -- PINGTANG, June 23, 2023 (Xinhua) -- This aerial photo taken on June 22, 2023 shows China‘s Five-hundred-meter Aperture Spherical Radio Telescope (FAST) under maintenance in southwest China‘s Guizhou Province. China‘s FAST telescope identified a binary pulsar with an orbital period of 53.3 minutes, the shortest known period for a pulsar binary system. The research, mainly conducted by a team led by scientists from the National Astronomical Observatories of the Chinese Academy of Sciences (NAOC), was published in the journal Nature Wednesday. (Xinhua/Ou Dongqu)= 配信日: 2023(令和5)年6月23日、クレジット:新華社/共同通信イメージズ
商品コード: 2023062313753
2023年06月23日(EyesonSci)CHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DETECTION (CN)(230623) -- PINGTANG, June 23, 2023 (Xinhua) -- A staff member performs a regular maintenance operation on China‘s Five-hundred-meter Aperture Spherical Radio Telescope (FAST) in southwest China‘s Guizhou Province, June 22, 2023. China‘s FAST telescope identified a binary pulsar with an orbital period of 53.3 minutes, the shortest known period for a pulsar binary system. The research, mainly conducted by a team led by scientists from the National Astronomical Observatories of the Chinese Academy of Sciences (NAOC), was published in the journal Nature Wednesday. (Xinhua/Ou Dongqu)= 配信日: 2023(令和5)年6月23日、クレジット:新華社/共同通信イメージズ
商品コード: 2023062313755
2023年06月23日(EyesonSci)CHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DETECTION (CN)(230623) -- PINGTANG, June 23, 2023 (Xinhua) -- This aerial panoramic photo taken on June 22, 2023 shows China‘s Five-hundred-meter Aperture Spherical Radio Telescope (FAST) under maintenance in southwest China‘s Guizhou Province. China‘s FAST telescope identified a binary pulsar with an orbital period of 53.3 minutes, the shortest known period for a pulsar binary system. The research, mainly conducted by a team led by scientists from the National Astronomical Observatories of the Chinese Academy of Sciences (NAOC), was published in the journal Nature Wednesday. (Xinhua/Ou Dongqu)= 配信日: 2023(令和5)年6月23日、クレジット:新華社/共同通信イメージズ
商品コード: 2023062313775
2023年06月23日(EyesonSci)CHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DETECTION (CN)(230623) -- PINGTANG, June 23, 2023 (Xinhua) -- This aerial photo taken on June 22, 2023 shows China‘s Five-hundred-meter Aperture Spherical Radio Telescope (FAST) under maintenance in southwest China‘s Guizhou Province. China‘s FAST telescope identified a binary pulsar with an orbital period of 53.3 minutes, the shortest known period for a pulsar binary system. The research, mainly conducted by a team led by scientists from the National Astronomical Observatories of the Chinese Academy of Sciences (NAOC), was published in the journal Nature Wednesday. (Xinhua/Ou Dongqu)= 配信日: 2023(令和5)年6月23日、クレジット:新華社/共同通信イメージズ
商品コード: 2023062313758
2023年06月23日(EyesonSci)CHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DETECTION (CN)(230623) -- PINGTANG, June 23, 2023 (Xinhua) -- This aerial photo taken on June 22, 2023 shows China‘s Five-hundred-meter Aperture Spherical Radio Telescope (FAST) under maintenance in southwest China‘s Guizhou Province. China‘s FAST telescope identified a binary pulsar with an orbital period of 53.3 minutes, the shortest known period for a pulsar binary system. The research, mainly conducted by a team led by scientists from the National Astronomical Observatories of the Chinese Academy of Sciences (NAOC), was published in the journal Nature Wednesday. (Xinhua/Ou Dongqu)= 配信日: 2023(令和5)年6月23日、クレジット:新華社/共同通信イメージズ
商品コード: 2023062313765
2023年06月23日(EyesonSci)CHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DETECTION (CN)(230623) -- PINGTANG, June 23, 2023 (Xinhua) -- This aerial panoramic photo taken on June 22, 2023 shows China‘s Five-hundred-meter Aperture Spherical Radio Telescope (FAST) under maintenance in southwest China‘s Guizhou Province. China‘s FAST telescope identified a binary pulsar with an orbital period of 53.3 minutes, the shortest known period for a pulsar binary system. The research, mainly conducted by a team led by scientists from the National Astronomical Observatories of the Chinese Academy of Sciences (NAOC), was published in the journal Nature Wednesday. (Xinhua/Ou Dongqu)= 配信日: 2023(令和5)年6月23日、クレジット:新華社/共同通信イメージズ
商品コード: 2023062313759
2023年06月23日(EyesonSci)CHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DETECTION (CN)(230623) -- PINGTANG, June 23, 2023 (Xinhua) -- This aerial panoramic photo taken on June 22, 2023 shows China‘s Five-hundred-meter Aperture Spherical Radio Telescope (FAST) under maintenance in southwest China‘s Guizhou Province. China‘s FAST telescope identified a binary pulsar with an orbital period of 53.3 minutes, the shortest known period for a pulsar binary system. The research, mainly conducted by a team led by scientists from the National Astronomical Observatories of the Chinese Academy of Sciences (NAOC), was published in the journal Nature Wednesday. (Xinhua/Ou Dongqu)= 配信日: 2023(令和5)年6月23日、クレジット:新華社/共同通信イメージズ
商品コード: 2023062313762
2023年06月23日(EyesonSci)CHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DETECTION (CN)(230623) -- PINGTANG, June 23, 2023 (Xinhua) -- This aerial photo taken on June 22, 2023 shows China‘s Five-hundred-meter Aperture Spherical Radio Telescope (FAST) under maintenance in southwest China‘s Guizhou Province. China‘s FAST telescope identified a binary pulsar with an orbital period of 53.3 minutes, the shortest known period for a pulsar binary system. The research, mainly conducted by a team led by scientists from the National Astronomical Observatories of the Chinese Academy of Sciences (NAOC), was published in the journal Nature Wednesday. (Xinhua/Ou Dongqu)= 配信日: 2023(令和5)年6月23日、クレジット:新華社/共同通信イメージズ
商品コード: 2023062313776
2023年06月23日(EyesonSci)CHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DETECTION (CN)(230623) -- PINGTANG, June 23, 2023 (Xinhua) -- This photo taken with a fish-eye lens on June 22, 2023 shows China‘s Five-hundred-meter Aperture Spherical Radio Telescope (FAST) under maintenance in southwest China‘s Guizhou Province. China‘s FAST telescope identified a binary pulsar with an orbital period of 53.3 minutes, the shortest known period for a pulsar binary system. The research, mainly conducted by a team led by scientists from the National Astronomical Observatories of the Chinese Academy of Sciences (NAOC), was published in the journal Nature Wednesday. (Xinhua/Ou Dongqu)= 配信日: 2023(令和5)年6月23日、クレジット:新華社/共同通信イメージズ
商品コード: 2023062313779
2023年06月23日(EyesonSci)CHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DETECTION (CN)(230623) -- PINGTANG, June 23, 2023 (Xinhua) -- This aerial photo taken on June 22, 2023 shows China‘s Five-hundred-meter Aperture Spherical Radio Telescope (FAST) under maintenance in southwest China‘s Guizhou Province. China‘s FAST telescope identified a binary pulsar with an orbital period of 53.3 minutes, the shortest known period for a pulsar binary system. The research, mainly conducted by a team led by scientists from the National Astronomical Observatories of the Chinese Academy of Sciences (NAOC), was published in the journal Nature Wednesday. (Xinhua/Ou Dongqu)= 配信日: 2023(令和5)年6月23日、クレジット:新華社/共同通信イメージズ
商品コード: 2023062313773
2023年06月23日(EyesonSci)CHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DETECTION (CN)(230623) -- PINGTANG, June 23, 2023 (Xinhua) -- This aerial photo taken on June 22, 2023 shows China‘s Five-hundred-meter Aperture Spherical Radio Telescope (FAST) under maintenance in southwest China‘s Guizhou Province. China‘s FAST telescope identified a binary pulsar with an orbital period of 53.3 minutes, the shortest known period for a pulsar binary system. The research, mainly conducted by a team led by scientists from the National Astronomical Observatories of the Chinese Academy of Sciences (NAOC), was published in the journal Nature Wednesday. (Xinhua/Ou Dongqu)= 配信日: 2023(令和5)年6月23日、クレジット:新華社/共同通信イメージズ
商品コード: 2023062313774
2023年06月23日(EyesonSci)CHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DETECTION (CN)(230623) -- PINGTANG, June 23, 2023 (Xinhua) -- This photo taken on June 22, 2023 shows the feed cabin of China‘s Five-hundred-meter Aperture Spherical Radio Telescope (FAST) under maintenance in southwest China‘s Guizhou Province. China‘s FAST telescope identified a binary pulsar with an orbital period of 53.3 minutes, the shortest known period for a pulsar binary system. The research, mainly conducted by a team led by scientists from the National Astronomical Observatories of the Chinese Academy of Sciences (NAOC), was published in the journal Nature Wednesday. (Xinhua/Ou Dongqu)= 配信日: 2023(令和5)年6月23日、クレジット:新華社/共同通信イメージズ
商品コード: 2023062313778
2023年06月23日(EyesonSci)CHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DETECTION (CN)(230623) -- PINGTANG, June 23, 2023 (Xinhua) -- This aerial photo taken on June 22, 2023 shows China‘s Five-hundred-meter Aperture Spherical Radio Telescope (FAST) under maintenance in southwest China‘s Guizhou Province. China‘s FAST telescope identified a binary pulsar with an orbital period of 53.3 minutes, the shortest known period for a pulsar binary system. The research, mainly conducted by a team led by scientists from the National Astronomical Observatories of the Chinese Academy of Sciences (NAOC), was published in the journal Nature Wednesday. (Xinhua/Ou Dongqu)= 配信日: 2023(令和5)年6月23日、クレジット:新華社/共同通信イメージズ
商品コード: 2023062313764
2023年06月23日(EyesonSci)CHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DETECTION (CN)(230623) -- PINGTANG, June 23, 2023 (Xinhua) -- This aerial photo taken on June 22, 2023 shows China‘s Five-hundred-meter Aperture Spherical Radio Telescope (FAST) under maintenance in southwest China‘s Guizhou Province. China‘s FAST telescope identified a binary pulsar with an orbital period of 53.3 minutes, the shortest known period for a pulsar binary system. The research, mainly conducted by a team led by scientists from the National Astronomical Observatories of the Chinese Academy of Sciences (NAOC), was published in the journal Nature Wednesday. (Xinhua/Ou Dongqu)= 配信日: 2023(令和5)年6月23日、クレジット:新華社/共同通信イメージズ
商品コード: 2023062313782
2023年06月23日(EyesonSci)CHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DETECTION (CN)(230623) -- PINGTANG, June 23, 2023 (Xinhua) -- This aerial photo taken on June 22, 2023 shows China‘s Five-hundred-meter Aperture Spherical Radio Telescope (FAST) under maintenance in southwest China‘s Guizhou Province. China‘s FAST telescope identified a binary pulsar with an orbital period of 53.3 minutes, the shortest known period for a pulsar binary system. The research, mainly conducted by a team led by scientists from the National Astronomical Observatories of the Chinese Academy of Sciences (NAOC), was published in the journal Nature Wednesday. (Xinhua/Ou Dongqu)= 配信日: 2023(令和5)年6月23日、クレジット:新華社/共同通信イメージズ
商品コード: 2023062313772
2023年06月23日(EyesonSci)CHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DETECTION (CN)(230623) -- PINGTANG, June 23, 2023 (Xinhua) -- This aerial photo taken on June 22, 2023 shows China‘s Five-hundred-meter Aperture Spherical Radio Telescope (FAST) under maintenance in southwest China‘s Guizhou Province. China‘s FAST telescope identified a binary pulsar with an orbital period of 53.3 minutes, the shortest known period for a pulsar binary system. The research, mainly conducted by a team led by scientists from the National Astronomical Observatories of the Chinese Academy of Sciences (NAOC), was published in the journal Nature Wednesday. (Xinhua/Ou Dongqu)= 配信日: 2023(令和5)年6月23日、クレジット:新華社/共同通信イメージズ
商品コード: 2023062313780
2023年06月23日(EyesonSci)CHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DETECTION (CN)(230623) -- PINGTANG, June 23, 2023 (Xinhua) -- This aerial panoramic photo taken on June 22, 2023 shows China‘s Five-hundred-meter Aperture Spherical Radio Telescope (FAST) under maintenance in southwest China‘s Guizhou Province. China‘s FAST telescope identified a binary pulsar with an orbital period of 53.3 minutes, the shortest known period for a pulsar binary system. The research, mainly conducted by a team led by scientists from the National Astronomical Observatories of the Chinese Academy of Sciences (NAOC), was published in the journal Nature Wednesday. (Xinhua/Ou Dongqu)= 配信日: 2023(令和5)年6月23日、クレジット:新華社/共同通信イメージズ
商品コード: 2023062313757
2023年06月23日(EyesonSci)CHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DETECTION (CN)(230623) -- PINGTANG, June 23, 2023 (Xinhua) -- This aerial photo taken on June 22, 2023 shows China‘s Five-hundred-meter Aperture Spherical Radio Telescope (FAST) under maintenance in southwest China‘s Guizhou Province. China‘s FAST telescope identified a binary pulsar with an orbital period of 53.3 minutes, the shortest known period for a pulsar binary system. The research, mainly conducted by a team led by scientists from the National Astronomical Observatories of the Chinese Academy of Sciences (NAOC), was published in the journal Nature Wednesday. (Xinhua/Ou Dongqu)= 配信日: 2023(令和5)年6月23日、クレジット:新華社/共同通信イメージズ
商品コード: 2023062313777
2023年06月23日(EyesonSci)CHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DETECTION (CN)(230623) -- PINGTANG, June 23, 2023 (Xinhua) -- This aerial panoramic photo taken on June 22, 2023 shows China‘s Five-hundred-meter Aperture Spherical Radio Telescope (FAST) under maintenance in southwest China‘s Guizhou Province. China‘s FAST telescope identified a binary pulsar with an orbital period of 53.3 minutes, the shortest known period for a pulsar binary system. The research, mainly conducted by a team led by scientists from the National Astronomical Observatories of the Chinese Academy of Sciences (NAOC), was published in the journal Nature Wednesday. (Xinhua/Ou Dongqu)= 配信日: 2023(令和5)年6月23日、クレジット:新華社/共同通信イメージズ
商品コード: 2023062313760
01:00.602024年04月18日「新華社」電波望遠鏡「中国天眼」、パルサー発見数900個以上に中国貴州省にある500メートル球面電波望遠鏡(FAST、通称「中国天眼」)を運用する中国科学院国家天文台FAST運用・発展センターは17日、FASTが発見した天体「パルサー」が900個余りに上ったと明らかにした。FASTが優先・重要プロジェクトとする銀河面の探査では650個余りが見つかった。新たに見つかったパルサーにはミリ秒パルサー170個余り、連星パルサー120個余り、暗くて弱い突発的パルサー80個が少なくとも含まれ、人類による宇宙観察の視野の限界が大きく広がった。(記者/欧東衢、劉勤兵、楊志剛、潘徳鑫、楊焱彬、陳嬙) =配信日: 2024(令和6)年4月18日、クレジット:新華社/共同通信イメージズ
商品コード: 2024041805446
2024年11月27日(1)電波望遠鏡「中国天眼」、パルサー発見数が千個を超すメンテナンス期間に撮影した500メートル球面電波望遠鏡「中国天眼」。(9月25日、ドローンから)中国貴州省にある500メートル球面電波望遠鏡(FAST、通称「中国天眼」)を運用する中国科学院国家天文台は26日、FASTが発見した天体「パルサー」が千個を超え、同時期に世界の他の望遠鏡によって発見されたパルサーの総数を上回ったと明らかにした。FASTが発見したパルサーには、ミリ秒パルサーと連星パルサーが多数含まれる。種類と数の豊富さはパルサーの形成と進化を理解する上で重要な意味を持つ。(貴陽=新華社記者/欧東衢)= 配信日: 2024(令和6)年11月27日、クレジット:新華社/共同通信イメージズ
商品コード: 2024112708336
2024年11月27日(3)電波望遠鏡「中国天眼」、パルサー発見数が千個を超すメンテナンス期間に撮影した500メートル球面電波望遠鏡「中国天眼」。(9月25日、ドローンから)中国貴州省にある500メートル球面電波望遠鏡(FAST、通称「中国天眼」)を運用する中国科学院国家天文台は26日、FASTが発見した天体「パルサー」が千個を超え、同時期に世界の他の望遠鏡によって発見されたパルサーの総数を上回ったと明らかにした。FASTが発見したパルサーには、ミリ秒パルサーと連星パルサーが多数含まれる。種類と数の豊富さはパルサーの形成と進化を理解する上で重要な意味を持つ。(貴陽=新華社記者/欧東衢)= 配信日: 2024(令和6)年11月27日、クレジット:新華社/共同通信イメージズ
商品コード: 2024112708334
2024年11月27日(2)電波望遠鏡「中国天眼」、パルサー発見数が千個を超すメンテナンス期間に撮影した500メートル球面電波望遠鏡「中国天眼」。(9月25日、ドローンから)中国貴州省にある500メートル球面電波望遠鏡(FAST、通称「中国天眼」)を運用する中国科学院国家天文台は26日、FASTが発見した天体「パルサー」が千個を超え、同時期に世界の他の望遠鏡によって発見されたパルサーの総数を上回ったと明らかにした。FASTが発見したパルサーには、ミリ秒パルサーと連星パルサーが多数含まれる。種類と数の豊富さはパルサーの形成と進化を理解する上で重要な意味を持つ。(貴陽=新華社記者/欧東衢)= 配信日: 2024(令和6)年11月27日、クレジット:新華社/共同通信イメージズ
商品コード: 2024112708333
00:34.002024年11月27日「新華社」電波望遠鏡「中国天眼」、パルサー発見数が千個を超す中国貴州省にある500メートル球面電波望遠鏡(FAST、通称「中国天眼」)を運用する中国科学院国家天文台は26日、FASTが発見した天体「パルサー」が千個を超え、同時期に世界の他の望遠鏡によって発見されたパルサーの総数を上回ったと明らかにした。FASTが発見したパルサーには、ミリ秒パルサーと連星パルサーが多数含まれる。種類と数の豊富さはパルサーの形成と進化を理解する上で重要な意味を持つ。(記者/張泉、欧東衢、楊焱彬) =配信日: 2024(令和6)年11月27日、クレジット:新華社/共同通信イメージズ
商品コード: 2024112708339
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