This technique uses powerful pulses of
electromagnetic radiation beamed into a person's brain to jam or excite particular brain circuits.
Not exact matches
The researchers observed FRB 150807 while monitoring a nearby pulsar — a rotating neutron star that emits a
beam of radio waves and other
electromagnetic radiation — in our galaxy using the Parkes radio telescope in Australia.
The wiggler directs the electron
beam back and forth, or «wiggles» the
beam, to make it produce
electromagnetic radiation.
Although she is only a high school student, she is searching for the signal of a pulsar — a rapidly rotating neutron star that emits a
beam of
electromagnetic radiation like a lighthouse.
A pulsar emits two
beams of
electromagnetic radiation along its magnetic axis.
With very strong magnetic fields and very fast rotations, some neutron stars blast
beams of
electromagnetic radiation from their poles, and if Earth is in the path of those
beams we can detect the signals as regular «pulses» — hence the name pulsars.
Some of these neutron stars produce the
beams of
electromagnetic radiation that characterize pulsars.
SESAME, which stands for Synchrotron - light for Experimental Science and Applications in the Middle East, is a light - source; a particle accelerator - based facility that uses
electromagnetic radiation emitted by circulating electron
beams to study a range of properties of matter.
While humankind is theoretically capable of blasting a laser
beam into space that is 10,000 times stronger than the sun, Diamond continued, «there isn't an instrument on Earth that can detect an Earth - like planet with Earth - like leakage of
electromagnetic radiation.»