Spicule (solar physics)


In solar physics, a spicule is a dynamic jet of plasma, about 300 km diameter, in the chromosphere of the Sun. They move upwards with speeds between 15 to 110 km/s from the photosphere and last a few minutes each. They were discovered in 1877 by Angelo Secchi, but the physical mechanism that generates them is still debated.

Description

Spicules last for about 15 minutes; at the solar limb they appear elongated. They are usually associated with regions of high magnetic flux; their mass flux is about 100 times that of the solar wind. They rise at a rate of 20 km/s and can reach several thousand kilometers in height before collapsing and fading away.

Prevalence

There are about 300,000 active spicules at any one time on the Sun's chromosphere. An individual spicule typically reaches 3,000–10,000 km altitude above the photosphere.

Causes

, Robert Erdélyi and Stewart James hypothesised in 2004 that spicules formed as a result of P-mode oscillations in the Sun's surface, sound waves with a period of about five minutes that causes the Sun's surface to rise and fall at several hundred meters per second. Magnetic flux tubes that tilted away from the vertical can focus and guide the rising material up into the solar atmosphere to form a spicule. There is still however some controversy about the issue in the solar physics community.

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