China's FAST telescope detects binary pulsar with orbital period of 53.3 minutes

China's FAST telescope detects binary pulsar with orbital period of 53.3 minutes

 China's FAST telescope detects  double pulsar with orbital period of53.3  twinkles  By Xinhua  Published Jun 24, 2023 1056 AM   This upstanding  print taken on June 22, 2023 shows China's Five- hundred-  cadence orifice Spherical Radio Telescope( FAST) under  conservation in southwest China's Guizhou Province. China's FAST telescope  linked a  double pulsar with an orbital period of53.3  twinkles, the shortest given period for a pulsar  doublesystem.The  exploration,  substantially conducted by a  platoon led by scientists from the National Astronomical Lookouts of the Chinese Academy of lores( NAOC), was published in the journal Nature Wednesday.( Xinhua/ Ou Dongqu) 

 This upstanding  print taken on June 22, 2023 shows China's Five- hundred-  cadence orifice Spherical Radio Telescope( FAST) under  conservation in southwest China's Guizhou Province. China's FAST telescope  linked a  double pulsar with an orbital period of53.3  twinkles, the shortest given period for a pulsar  doublesystem.The  exploration,  substantially conducted by a  platoon led by scientists from the National Astronomical Lookouts of the Chinese Academy of lores( NAOC), was published in the journal Nature Wednesday.( Xinhua/ Ou Dongqu)     This upstanding  print taken on June 22, 2023 shows China's Five- hundred-  cadence orifice Spherical Radio Telescope( FAST) under  conservation in southwest China's Guizhou Province. China's FAST telescope  linked a  double pulsar with an orbital period of53.3  twinkles, the shortest given period for a pulsar  doublesystem.The  exploration,  substantially conducted by a  platoon led by scientists from the National Astronomical Lookouts of the Chinese Academy of lores( NAOC), was published in the journal Nature Wednesday.( Xinhua/ Ou Dongqu)  This upstanding  print taken on June 22, 2023 shows China's Five- hundred-  cadence orifice Spherical Radio Telescope( FAST) under  conservation in southwest China's Guizhou Province. 

China's FAST telescope  linked a  double pulsar with an orbital period of53.3  twinkles, the shortest given period for a pulsar  doublesystem.The  exploration,  substantially conducted by a  platoon led by scientists from the National Astronomical Lookouts of the Chinese Academy of lores( NAOC), was published in the journal Nature Wednesday.( Xinhua/ Ou Dongqu)     This upstanding  print taken on June 22, 2023 shows China's Five- hundred-  cadence orifice Spherical Radio Telescope( FAST) under  conservation in southwest China's Guizhou Province. China's FAST telescope  linked a  double pulsar with an orbital period of53.3  twinkles, the shortest given period for a pulsar  doublesystem.The  exploration,  substantially conducted by a  platoon led by scientists from the National Astronomical Lookouts of the Chinese Academy of lores( NAOC), was published in the journal Nature Wednesday.( Xinhua/ Ou Dongqu) 

 This upstanding  print taken on June 22, 2023 shows China's Five- hundred-  cadence orifice Spherical Radio Telescope( FAST) under  conservation in southwest China's Guizhou Province. China's FAST telescope  linked a  double pulsar with an orbital period of53.3  twinkles, the shortest given period for a pulsar  doublesystem.The  exploration,  substantially conducted by a  platoon led by scientists from the National Astronomical Lookouts of the Chinese Academy of lores( NAOC), was published in the journal Nature Wednesday.( Xinhua/ Ou Dongqu)     This  print taken on June 22, 2023 shows the feed cabin of China's Five- hundred-  cadence orifice Spherical Radio Telescope( FAST) under  conservation in southwest China's Guizhou Province. China's FAST telescope  linked a  double pulsar with an orbital period of53.3  twinkles, the shortest given period for a pulsar  doublesystem.The  exploration,  substantially conducted by a  platoon led by scientists from the National Astronomical Lookouts of the Chinese Academy of lores( NAOC), was published in the journal Nature Wednesday.( Xinhua/ Ou Dongqu)  This  print taken on June 22, 2023 shows the feed cabin of China's Five- hundred-  cadence orifice Spherical Radio Telescope( FAST) under  conservation in southwest China's Guizhou Province. China's FAST telescope  linked a  double pulsar with an orbital period of53.3  twinkles, the shortest given period for a pulsar  doublesystem.The  exploration,  substantially conducted by a  platoon led by scientists from the National Astronomical Lookouts of the Chinese Academy of lores( NAOC), was published in the journal Nature Wednesday.( Xinhua/ Ou Dongqu)     

This upstanding panoramic  print taken on June 22, 2023 shows China's Five- hundred-  cadence orifice Spherical Radio Telescope( FAST) under  conservation in southwest China's Guizhou Province. China's FAST telescope  linked a  double pulsar with an orbital period of53.3  twinkles, the shortest given period for a pulsar  doublesystem.The  exploration,  substantially conducted by a  platoon led by scientists from the National Astronomical Lookouts of the Chinese Academy of lores( NAOC), was published in the journal Nature Wednesday.( Xinhua/ Ou Dongqu)  This upstanding panoramic  print taken on June 22, 2023 shows China's Five- hundred-  cadence orifice Spherical Radio Telescope( FAST) under  conservation in southwest China's Guizhou Province. China's FAST telescope  linked a  double pulsar with an orbital period of53.3  twinkles, the shortest given period for a pulsar  doublesystem.The  exploration,  substantially conducted by a  platoon led by scientists from the National Astronomical Lookouts of the Chinese Academy of lores( NAOC), was published in the journal Nature Wednesday.( Xinhua/ Ou Dongqu)     This  print taken with a fish- eye lens on June 22, 2023 shows China's Five- hundred-  cadence orifice Spherical Radio Telescope( FAST) under  conservation in southwest China's Guizhou Province. China's FAST telescope  linked a  double pulsar with an orbital period of53.3  twinkles, the shortest given period for a pulsar  doublesystem.The  exploration,  substantially conducted by a  platoon led by scientists from the National Astronomical Lookouts of the Chinese Academy of lores( NAOC), was published in the journal Nature Wednesday.( Xinhua/ Ou Dongqu)  This  print taken with a fish- eye lens on June 22, 2023 shows China's Five- hundred-  cadence orifice Spherical Radio Telescope( FAST) under  conservation in southwest China's Guizhou Province. China's FAST telescope  linked a  double pulsar with an orbital period of53.3  twinkles, the shortest given period for a pulsar  doublesystem.The  exploration,  substantially conducted by a  platoon led by scientists from the National Astronomical Lookouts of the Chinese Academy of lores( NAOC), was published in the journal Nature Wednesday.( Xinhua/ Ou Dongqu)