The Hard X-ray Modulation Telescope(HXMT) is China's first astronomical satellite.It will perform a broad band(1–250 keV) scan survey and do pointed observations of X-ray sources to study their spectra and multi-...The Hard X-ray Modulation Telescope(HXMT) is China's first astronomical satellite.It will perform a broad band(1–250 keV) scan survey and do pointed observations of X-ray sources to study their spectra and multi-wavelength temporal properties. The pre-flight models of the satellites have been finished, and the flight models are in production. The expected launch date of HXMT is in late 2015.展开更多
The Hard X-ray Modulation Telescope(HXMT) is China's first X-ray(1-250 keV)astronomical satellite officially approved in 2011.It will scan the Galactic plane to detect new transient sources and do pointed observat...The Hard X-ray Modulation Telescope(HXMT) is China's first X-ray(1-250 keV)astronomical satellite officially approved in 2011.It will scan the Galactic plane to detect new transient sources and do pointed observations of X-ray sources to study their spectra and multiwavelength temporal properties.Now the flight model of the satellite is in the final testing stage,and the expected launch date is in late 2016.展开更多
文摘The Hard X-ray Modulation Telescope(HXMT) is China's first astronomical satellite.It will perform a broad band(1–250 keV) scan survey and do pointed observations of X-ray sources to study their spectra and multi-wavelength temporal properties. The pre-flight models of the satellites have been finished, and the flight models are in production. The expected launch date of HXMT is in late 2015.
文摘The Hard X-ray Modulation Telescope(HXMT) is China's first X-ray(1-250 keV)astronomical satellite officially approved in 2011.It will scan the Galactic plane to detect new transient sources and do pointed observations of X-ray sources to study their spectra and multiwavelength temporal properties.Now the flight model of the satellite is in the final testing stage,and the expected launch date is in late 2016.
