230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-TELESCOPE-BINARY Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/230623-pingtang-june-23-2023-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-533-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-eyesonscichina-guizhou-fast-telescope-binary-image565397219.html
RM2RRT1WR–230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-TELESCOPE-BINARY
230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-TELESCOPE-BINARY Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/230623-pingtang-june-23-2023-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-533-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-eyesonscichina-guizhou-fast-telescope-binary-image565397204.html
RM2RRT1W8–230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-TELESCOPE-BINARY
230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-TELESCOPE-BINARY Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/230623-pingtang-june-23-2023-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-533-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-eyesonscichina-guizhou-fast-telescope-binary-image565397233.html
RM2RRT1X9–230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-TELESCOPE-BINARY
230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-TELESCOPE-BINARY Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/230623-pingtang-june-23-2023-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-533-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-eyesonscichina-guizhou-fast-telescope-binary-image565397238.html
RM2RRT1XE–230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-TELESCOPE-BINARY
230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-TELESCOPE-BINARY P Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/230623-pingtang-june-23-2023-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-533-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-eyesonscichina-guizhou-fast-telescope-binary-p-image565397242.html
RM2RRT1XJ–230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-TELESCOPE-BINARY P
230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DET Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/230623-pingtang-june-23-2023-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-533-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-eyesonscichina-guizhou-fast-telescope-binary-pulsar-det-image565397177.html
RM2RRT1T9–230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DET
230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DET Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/230623-pingtang-june-23-2023-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-533-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-eyesonscichina-guizhou-fast-telescope-binary-pulsar-det-image565397190.html
RM2RRT1TP–230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DET
230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DET Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/230623-pingtang-june-23-2023-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-533-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-eyesonscichina-guizhou-fast-telescope-binary-pulsar-det-image565397244.html
RM2RRT1XM–230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DET
230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DET Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/230623-pingtang-june-23-2023-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-533-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-eyesonscichina-guizhou-fast-telescope-binary-pulsar-det-image565397175.html
RM2RRT1T7–230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DET
230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DET Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/230623-pingtang-june-23-2023-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-533-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-eyesonscichina-guizhou-fast-telescope-binary-pulsar-det-image565397235.html
RM2RRT1XB–230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DET
230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DET Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/230623-pingtang-june-23-2023-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-533-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-eyesonscichina-guizhou-fast-telescope-binary-pulsar-det-image565397216.html
RM2RRT1WM–230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DET
230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DET Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/230623-pingtang-june-23-2023-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-533-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-eyesonscichina-guizhou-fast-telescope-binary-pulsar-det-image565397256.html
RM2RRT1Y4–230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DET
Creative Highlights World 230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-T Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/creative-highlights-world-230623-pingtang-june-23-2023-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-533-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-eyesonscichina-guizhou-fast-t-image565397209.html
RM2RRT1WD–Creative Highlights World 230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-T
230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-TELESCOPE-BIN Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/230623-pingtang-june-23-2023-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-533-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-eyesonscichina-guizhou-fast-telescope-bin-image565397179.html
RM2RRT1TB–230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-TELESCOPE-BIN
230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-TELESCOPE-BINARY Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/230623-pingtang-june-23-2023-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-533-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-eyesonscichina-guizhou-fast-telescope-binary-image565397255.html
RM2RRT1Y3–230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-TELESCOPE-BINARY
230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-TELESCOPE-BINARY Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/230623-pingtang-june-23-2023-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-533-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-eyesonscichina-guizhou-fast-telescope-binary-image565397231.html
RM2RRT1X7–230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-TELESCOPE-BINARY
230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DET Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/230623-pingtang-june-23-2023-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-533-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-eyesonscichina-guizhou-fast-telescope-binary-pulsar-det-image565397220.html
RM2RRT1WT–230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DET
230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DET Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/230623-pingtang-june-23-2023-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-533-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-eyesonscichina-guizhou-fast-telescope-binary-pulsar-det-image565397236.html
RM2RRT1XC–230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DET
230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DET Stock Photohttps://www.alamy.com/licenses-and-pricing/?v=1https://www.alamy.com/230623-pingtang-june-23-2023-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-533-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-eyesonscichina-guizhou-fast-telescope-binary-pulsar-det-image565397176.html
RM2RRT1T8–230623 -- PINGTANG, June 23, 2023 -- 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. EyesonSciCHINA-GUIZHOU-FAST-TELESCOPE-BINARY PULSAR-DET
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