This dead remnant of a star glows red like a hot ember, and is spinning 173 times per second, emitting
powerful radio beams that sweep across the sky as it rotates.
Not exact matches
Devices like this superconducting
radio frequency cavity accelerate electron
beams in the world's most
powerful particle colliders and X-ray sources to nearly the speed of light.
Pulsars emit
powerful beams of
radio waves that sweep across space like a lighthouse, but
radio telescopes only notice these if Earth is in their path.
The International LOFAR Telescope has issued a Call for Proposals with a submission deadline of Wednesday 8 March 2017, 12 UT The International LOFAR Telescope (ILT), a
powerful next - generation
radio telescope, offering synthesis imaging,
beam - formed and time - series observing modes at frequencies below 240 MHz, solicits proposals from the international astronomical community for observations to be -LSB-...]
The International LOFAR Telescope (ILT), a
powerful next - generation
radio telescope, offering synthesis imaging,
beam - formed and time - series observing modes at frequencies below 240 MHz, solicits proposals from the international astronomical community for observations to be made during Cycle - 8, that will last between 15 May 2017 and 14 November 2017.
NASA's newest moon orbiter is
beaming data to Earth via a
powerful laser
beam to test an innovative interplanetary communications systems that doesn't rely on
radio waves, and a new photo reveals just what a moon laser signal looks like in infrared.
Pulsars, those spinning, superdense neutron stars that send
powerful lighthouse
beams of
radio waves and light flashing through the Universe, have been lying about their ages.
Pulsars, those spinning, superdense neutron stars that send
powerful «lighthouse
beams» of
radio waves and light flashing through the Universe, have been «lying about their ages,» leading astronomers, and possibly particle physicists, to erroneous conclusions for the past 30 years, according to researchers using the National Science Foundation's Very Large Array (VLA)
radio telescope.