The Role of Gravitational Waves in Time Travel

Gravitational waves, those ripples in the fabric of spacetime, have long been a fascinating subject for scientists. But their potential to facilitate time travel is both a tantalizing and controversial topic. In my studies, it is the stable gravitational wave that holds the key to creating stable wormholes, a prerequisite for time travel. Despite my repeated experiments, time travel remains elusive, yet I believe the science is within reach.

Zero-Point Energy and the Artificial Light Cone

My research into zero-point energy of spacetime involves creating an 'artificial light cone' that represents the present at the zero-point energy location. This is achieved by configuring interferometers, computers, and other equipment to detect the energy fluctuations in spacetime. When zero-point energy is accurately detected, a 'void' is created in the spacetime continuum, which is not very large, about a 1/4 inch in diameter.

When a beam of light is directed 90 degrees perpendicular to the Earth's surface, an artificial light cone is created, symbolizing the present at this location. In the image above, this present point is marked by a small yellow cloud between the past and future light cones. These light cones, while seemingly complex, are mathematically proven to exist, and I and others have experimentally verified their presence.

Manipulating the Present

The manipulation of spacetime involves shifting the light beam left or right, creating a circular pattern of movement around my equipment. This subtle shift alters the curvature of spacetime, allowing virtual objects to move backward or forward in time. The movement is controlled through a micrometer, and it's crucial to be precise, as even minor changes can result in large jumps, moving the virtual object days into the past or future.

Creating Wormholes and the Role of Gravitational Waves

Wormholes and gravitational waves are intriguing subjects, with vast potential for great discoveries like time travel, teleportation, and even antigravity. One of the significant findings in my research is the creation of stable gravitational waves, which can serve as a foundation for opening stable wormholes.

A standing gravitational wave, a stable form of these ripples, can be induced by an external source, be it a disturbance on Earth or through outer space. The presence of such waves is continually monitored with interferometers, computers, and other equipment. Once detected, a gravitational wormhole can form spontaneously. However, its exact destination cannot be predicted accurately.

While the exact location of a gravitational wormhole is uncertain, if it has been detected recently and not much time has elapsed, it is likely to still be in the same area, possibly even expanded to a larger size in mid-air or on the screen. The process hinges on the presence of stable gravitational waves that do not move, making them useful for wormhole creation.

Conclusion

In summary, it is stable gravitational waves that play a crucial role in the creation of stable wormholes, potentially facilitating time travel. However, time travel itself is an immensely complex process that involves manipulating spacetime via zero-point energy. Through meticulous experimentation, we can achieve gigantic leaps in time, moving virtual objects in either the past or future with simple increments.

As I continue my research, the potential for groundbreaking discoveries remains high. While time travel remains elusive, the research and experimentation continue, pushing the boundaries of what we understand about the universe.