Rieger period Rieger and coworkers discovered in 1984 a strong period of ~154 days in hard solar flares, at least since the
solar cycle 19. The period has since been confirmed in most heliophysics data and the
interplanetary magnetic field, and is commonly known as the
Rieger period.
Rieger-type periodicities Besides numerous confirmations of PR, its
resonance harmonics were reported as well, including PR, PR, PR, PR, and PR, i.e., ~128, ~102, ~78, ~51, and ~31 days, called
Rieger-type periodicities. Types of data periodic with Rieger cycles include
solar flares,
photospheric magnetic flux, group
sunspot numbers, and
proton speed. Various longer (1–2 years) modulations also were reported in almost all heliophysics data types. Besides the above mentioned, data types that exhibit long-periodic dynamics include solar flare index,
solar radio flux, and others, except for the coronal index and 10.7 cm
solar flux. So far, these periodicities have been reported in different ranges, depending on data, location, epoch, and methodology, as 155–160 days, 160–165 days, 175–188 days, and 180–190 days. Most of those studies indicate a leading periodicity ranging from 152 to 158 days, which appears to be dominant particularly in the time phase from ~1979–1983, corresponding to the
solar maximum activity.
Origin of Rieger resonance Various proposals exist as to the origin of the underlying resonant process behind PR in the dynamics of Sun-ejected particles and its modulations and harmonics, including possible influences of planetary constellations on the Sun. One such report found that a damped periodically forced nonlinear oscillator, which exhibits both periodic and chaotic behavior, can simulate the process described by Rieger periodicities. The entire Rieger resonance was detected in the interplanetary magnetic field as well, including
Earth's vicinity. ==Other work==