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Monday, July 23, 2012

How Physicists Might Discover the Spirit World

In an article on cnn.com, physicist and author Sean Carroll describes how the recently discovered Higgs boson might allow physicists to study dark matter. Dark matter is a form of matter that comprises five sixths of the total mass of the universe, however little is known about dark matter because it rarely interacts with ordinary matter. In his article, Carroll describes how scientists could use the Higgs boson to investigate dark matter.

Some people suspect that the spirit world is made of dark matter. In this case, physicists studying dark matter could soon discover the spirit realm. However, even if the spirit world is not made of dark matter, Carroll describes a process that would allow physics to eventually discover the spirit world. When physicists stumble upon an effect in their laboratories or particle accelerators that involves spiritual physics, further study will inevitably lead to discovery of the spirit world.

Through mediumship and other paranormal phenomena, we know that spirits do have some effect on the physical world. Wave function collapse may be one such effect. Quantum entanglement may be also be a phenomena that links the physical world to the spirit world. Therefore, it is only a matter of time before persistent investigations of mainstream physics will lead to the discovery of spiritual physics.

From the article:

It's possible, even likely, that millions of them [dark matter particles] pass through your body every second. It's like a city with two populations, each speaking a different language, and no translators or bilingual interpreters. The two groups of people go about their separate lives, never directly speaking with each other. Likewise, in our galaxy, dark matter and ordinary matter pass right through each other all the time.

The Higgs boson could be the bilingual particle we've been looking for. We don't know exactly what the dark matter is, but we certainly have our favorite theories. In many of those models, the Higgs is the one particle that readily interacts both with ordinary protons and neutrons and also with dark matter.

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There are several experiments currently running with the goal of detecting dark matter.

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We're not just waiting around for dark matter to be detected, either. Now that we've found the Higgs, we can start studying its properties in detail.

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But once we better understand the Higgs and the particles it decays into, we might be able to infer the presence of dark matter just by process of elimination, by pinpointing events in which more energy went into the collision than we detected coming out.

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