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Recreating a heavenly chorus of plasma waves on Earth

Physicists use a novel plasma experiment to study elusive chirping radio signals from space

Date:
November 10, 2015
Source:
American Physical Society
Summary:
New experiments have successfully excited elusive plasma waves, known as whistler-mode chorus waves, which have hitherto only been observed in the Earth's near-space environment.
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Chirping of the plasma whistler-mode waves are visualized with the help of wave intensity plotted over time (horizontal axis). The high-intensity signals (red streaks) occur at increasing frequency (vertical axis) as time progresses in observations from both the LAPD experiment and the THEMIS satellite cluster that orbits the Earth.
Credit: Jacob Bortnik

Recent experiments at the Large Plasma Device (LAPD) at the University of California, Los Angeles, have successfully excited elusive plasma waves, known as whistler-mode chorus waves, which have hitherto only been observed in the Earth's near-space environment. These chorus waves were accidentally discovered as early as World War I by radio operators deploying long lines intended to intercept enemy communication, and were subsequently dubbed "dawn chorus" since the sound of the radio signal when played through loudspeakers sounded like the distant chirping of a rookery of birds.

In the modern space age, whistler-mode chorus waves were recognized as playing a key role in accelerating electrons to extremely high energies in the near-Earth space environment, acting as nature's own cyclotron accelerator in creating the so-called Van Allen Radiation belts. However, the detailed excitation process of chorus waves, particularly as it leads to their distinct chirping quality, could never be observed in space, and eluded laboratory measurement until now.

A novel experiment at the LAPD at UCLA has shown how a key range of the background plasma parameters, together with free energy supplied by an energetic electron beam, leads to the generation of chirping chorus waves, and diagnostics available in the plasma laboratory reveal the inner structure and mechanics of these waves.

Measurements reveal that a complex interplay of different excitation modes, and waves at different frequencies propagating in opposite directions, produce the wave signatures that are characteristically observed in space. These observations provide an unprecedented constraint on theoretical models and will transform our understanding and ability to predict the excitation of chorus waves in space, ultimately leading to an understanding of the radiation belt acceleration process that poses a threat to satellites operating in space.


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American Physical Society. "Recreating a heavenly chorus of plasma waves on Earth: Physicists use a novel plasma experiment to study elusive chirping radio signals from space." ScienceDaily. ScienceDaily, 10 November 2015. <www.sciencedaily.com/releases/2015/11/151110170923.htm>.
American Physical Society. (2015, November 10). Recreating a heavenly chorus of plasma waves on Earth: Physicists use a novel plasma experiment to study elusive chirping radio signals from space. ScienceDaily. Retrieved May 28, 2017 from www.sciencedaily.com/releases/2015/11/151110170923.htm
American Physical Society. "Recreating a heavenly chorus of plasma waves on Earth: Physicists use a novel plasma experiment to study elusive chirping radio signals from space." ScienceDaily. www.sciencedaily.com/releases/2015/11/151110170923.htm (accessed May 28, 2017).

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