In recent years, scientists have discovered that Jupiter is releasing immense energy, potentially making it the second star in our solar system in the future. The core temperature of Jupiter has reached 280,000 degrees Kelvin, nearing the temperature required for thermonuclear reactions. The presence of liquid metallic components within Jupiter gives it a powerful magnetic field, allowing it to convert gravitational energy into thermal energy. As Jupiter continues to absorb energy from solar winds, it accumulates a significant amount of thermonuclear fuel internally. If a large-scale thermonuclear reaction were to occur within Jupiter, it could shine and radiate heat like the Sun, ultimately evolving into a new star.