The speed of particles moving through the Higgs field works much in the same way.
The particle is a component of something called the Higgs field, which permeates our universe.
The Higgs field does something strange: throughout the entire Universe, it takes on a uniform, non-zero value.
When the Higgs field does this, the interactions between the Higgs boson and other particles acquire their mass.
The boson helps confer the property of mass on all other particles through their interaction with something called the Higgs field.
The consensus among physicists is that particles began massless and got their mass subsequently from something known as the Higgs field the search for which was one reason for building the Large Hadron Collider, a huge and powerful particle accelerator located near Geneva.
The electron would have no mass if it were not for this "substance, " the field made of Higgs particles.
The theory proposes that a so-called Higgs energy field exists everywhere in the universe.
First and foremost is the question of how the invisible background field tied to the existence of the Higgs came to be and why it has the properties it does.
The Higgs is associated with an invisible field predicted to permeate throughout all of space interacting with particles to give them mass.
Even before its existence was at last tentatively suggested by an experiment this week, many people had heard of the Higgs boson, the mysterious manifestation of the field that causes matter to have mass, according to a theory minted in 1964.
Quantum mechanics tells us that if such a Higgs field exists, then one can produce real particles out of the field if one throws enough energy into a small enough volume.
As particles zoom around in this field, they interact with and attract Higgs bosons, which cluster around the particles in varying numbers.
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