Effect of the Jupiter on the James Webb Space Telescope’s Position inSolar Cycles Based on the ‘Solar Cycle Hypothesis’

Based on the “Solar Cycle Hypothesis”, every 11-year solar cycle happens when Jupiter with its 67 Moons pass in the Sun’s orbit in its nearest portion to the Sun, or perihelion, while the Earth is passing between them. In this situation, the gravitational forces between the Sun, Earth, and Jupiter which are along each other become maximum, and variable dislocation (fluctuation) of the Sun’s core goes up. Therefore, the helium-hydrogen fusion becomes maximum inside the Sun and reinforces the electromagnetic fields and consequently, the solar cycle happens [H. Gholibeigian, 2018APS...MARG60171G].

On the other hand, the James Webb Space Telescope (JWST) which is in the position of the Lagrange point 2 (L2) has a large sun shield that blocks light and heat from the Sun, Earth, and Moon. But, what about the variation of the gravitational field in the L2 position during the solar cycles? I don’t know if Lagrange considered the effect of the solar cycles in his calculation for the definition of the Lagrange points or not. Because, this change in the gravitational field may change the position of the L2 and cause the JWST to lose its position in L2 and be subjected to unbalanced gravitational loads, creating hazards in addition to the massive destructive magnetic fields created.