Strong radio waves are present, such as those from a TV tower.
The source, located 7.3 billion light years away from us, is a quasar, emitting very
strong radio waves.
To calibrate its systems, ALMA looks at objects emitting
strong radio waves (radio «bright» objects).
Not exact matches
The X radiation from both galaxies appears to be from 10 to 100 times
stronger than the energy they emit in the form of light and
radio waves.
TWISTS AND TURNS The twisted
waves from a distant fast
radio burst suggest the burst originates from a neighborhood with a
strong magnetic field.
Scientists use the apparatus to search for axions converting into
radio waves in a
strong magnetic field.
The signal — a dip in the intensity of
radio waves across certain frequencies — was more than twice as
strong as expected.
Eatough's team realised that the
strong bursts of
radio waves emitted by the pulsar would be rotated by the black hole's magnetic field, and so could be used to measure the strength of the field.
In earlier observations, emission from two or more faint objects often was blurred or blended into what appeared to be a single,
stronger source of
radio waves.
«These include different types of MRI scans, which use
strong magnetic fields and
radio waves to produce detailed images of the inside of the brain, and Positron Emission Tomography (PET) scans, which use a small amount of a radioactive drug, or tracer, to test how tissues in the brain are actually functioning.
We know that for energies of modest to intermediate energy, the culprit or the source of the acceleration appears to be the shock front that surrounds a [an] expanding supernova blast
wave; that is to say, we have a star that undergoes a massive cosmic explosion [and] drives a
strong shock
wave out into the surrounding interstellar medium, and the gas around the shock
wave, and all the magnetic fields associated with it are capable of accelerating particles to very high energies; and also incidentally magnifying and amplifying the magnetic field associated with that shock front and giving a lot of x-ray emission and
radio emission and so on, and so we've understood that.
When the
waves of these separated telescopes are combined, the signals get
stronger and the noise flattens out, creating sharper views of
radio objects.
Shorter wavelength
radio waves are thought to be emitted close into the root of the jet, so the result shows that the magnetic field is
stronger and better aligned at the root of the jet.
magnetization so
strong it sucks the light and
radio waves up?