Optimization of a Mutual Induction Circuit that Separates Zero Energy into Positive and Negative Energy

抄録

The creation of negative energy is key to the development of new space propulsion technologies. It has been believed that it is impossible to generate negative energy using electromagnetic methods. However, we have theoretically demonstrated the existence of a mutual induction circuit that can transiently separate zero energy into positive and negative energy. First, a current is passed through one coil of a mutual induction circuit. Next, the power supply switch is turned off and another switch is turned on to connect the two coils in series. Then, a differential connection is immediately established with another coil to form a closed circuit. At this time, the current increase phenomenon and energy separation phenomenon transiently occur due to the rapid cancellation of the magnetic flux. In the proposed circuit, the amount of positive and negative energy that is transiently separated is equal. Therefore, the law of conservation of energy holds. In this study, we carried out a theoretical analysis to maximize the energy separation efficiency of the proposed circuit and clarified the circuit conditions under which the maximum net efficiency reaches 367%, for example, when the coupling coefficient is 0.992. In addition, we conducted experiments to verify the effectiveness of the theory and simulation. The theoretical and experimental values were in good agreement.