The_two_suns_hypothesis.pdf
Abstract
The Two Suns Hypothesis, proposed by Louis-Claude Vincent and Jeanne Rousseau, offers a reinterpretation of solar and cosmic phenomena through the lens of classical physics. The hypothesis challenges traditional understandings of the Sun, suggesting the existence of two distinct components: the visible Sun, which provides heat and light, and an invisible electromagnetic counterpart, referred to as the “Black Sun” or “Real Sun”, which is imperceptible from Earth as it remains hidden behind the “Luminous Sun.”
This model explores the interaction between the Sun’s electromagnetic radiation and Earth’s ionosphere, proposing that the Sun visible from Earth is merely an image produced by the invisible, high-frequency electromagnetic radiation emitted by the “Real Sun.” The hypothesis also investigates the 11-year Schwabe half cycle and the 22-year Hale full cycle, as well as the role of the ionosphere and lunar influences on tides, solar activity, and cosmic resonances. It suggests that many celestial and terrestrial phenomena—such as sunspots, solar flares, and auroras—can be explained through electromagnetic interference and resonance patterns tied to Earth’s atmosphere, accounting for the correlations between sunspots and the orbital positions of Earth and the Moon.
By explaining many poorly understood phenomena through the rational concepts of classical physics, Vincent and Rousseau bring clarity to a key area and make it accessible to a wider audience. Although largely overlooked by mainstream science, this model provides broadened explanations for these phenomena and advocates for further exploration using modern observational tools, data processing, and 3D modeling techniques.2