What is negative energy?

Negative energy is believed to exist on the edge of black holes.

While many know that “negative energy” refers to negative chi, negative aura, or other harmful energy that a person emits, the term also has a scientific definition. Based on the Heisenberg uncertainty principle, negative energy has to do with the inherent fluctuations in energy that exist in any energy or magnetic field. This form of “exotic matter” is a highly unpredictable force that has been proven to exist in the midst of zero energy fields. Although difficult to pinpoint, this type of energy is speculated to exist on the edge of black holes and was cited as a necessary prerequisite for time travel by Stephen Hawking.

Stephen Hawking claims that negative energy would be necessary for time travel.

The concept of negative energy was proposed by British physicist Paul Adrien Maurice Dirac in 1928, as a component of the Dirac equation. This equation was designed to be consistent with the standards of special relativity. In this equation, Dirac described how quantum states of positive energy would be offset by negative energy. Generally, these two types of energy balance each other out. Thus, a negative form of energy is generally not an observable phenomenon. However, in the case of a pure vacuum, negative energy states will be expressed for all atoms within the vacuum, while no positive energy states will be expressed. This concept is known as the Dirac Sea.

Theoretically, a hole can develop in the Dirac Sea if a stray gamma ray collides with electrons in a negative energy state, converting it into a positively charged electron. This hole in the Dirac Sea would behave in the opposite way to the original, negatively charged electron. The new positively charged electron would be an example of antimatter. Therefore, antimatter should not be confused with a negative state of energy.

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In 1948, Dutch physicist Hendrick Casimir predicted that a small attractive force could exist between two uncharged parallel plates in a vacuum. If the plates are very close together, negative energy is produced as the number of electromagnetic waves between the two plates becomes less than that of the surrounding space. In essence, a negative energy state becomes present when the wavelengths of particles in a given region of space are shorter than what can normally be measured.

Casimir’s predictions were observed in two separate experiments. The first experiment took place in 1958 and was supervised by MJ Sparnaay. It produced results consistent with Casimir’s theories. The second experiment, by Steve K. Lamoreaux, was conducted in 1997. Instead of using two plates in the experiment, Lamoreaux paired a single plate with another plate that was part of an almost precise sphere. This experiment also confirmed Casimir’s predictions. Although negative energy states may not be observable, they have been proven both theoretically and experimentally.

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