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What is spontaneous collapse theory?

What is spontaneous collapse theory?

The physical idea that underlies collapse theories is that particles undergo spontaneous wave-function collapses, which occur randomly both in time (at a given average rate), and in space (according to the Born rule). The GRW is the first spontaneous collapse theory that was devised.

Why do waves become particles when observed?

When behaving as waves, they can simultaneously pass through several openings in a barrier and then meet again at the other side of the barrier. This “meeting” is known as interference. In other words, when under observation, electrons are being “forced” to behave like particles and not like waves.

Why does observation change the outcome?

In physics, the observer effect is the disturbance of an observed system by the act of observation. This is often the result of instruments that, by necessity, alter the state of what they measure in some manner. While the effects of observation are often negligible, the object still experiences a change.

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What causes wave function collapse?

In quantum mechanics, wave function collapse occurs when a wave function—initially in a superposition of several eigenstates—reduces to a single eigenstate due to interaction with the external world. This interaction is called an “observation”.

What is collapse interpretation?

Collapse theories stand in opposition to many-worlds interpretation theories, in that they hold that a process of wave function collapse curtails the branching of the wave function and removes unobserved behaviour.

What is the collapse of a wave function called?

For other uses, see Collapse. In quantum mechanics, wave function collapse occurs when a wave function —initially in a superposition of several eigenstates —reduces to a single eigenstate due to interaction with the external world. This interaction is called an ” observation “.

What is the collapse of wave function in Bohm theory?

In Bohm interpretation the collapse of the wave function happens when the observer introduces into the measured system some perturbation, which is inevitable when performing the measurement. The difference between the measurement and any other interaction is in that the perturbation introduced by measurement is unknown beforehand.

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How does the observer perceive the collapse of a wave-particle system?

Instead what the observer perceives as the collapse is just the event of entanglement of the observer with the observed system. On Young’s double-slit experiment the wave-particle duality (one by one photon) is more a problem of “picture of the model” than a philosophic one: see Y. Couder interpretation, by your self (!),

What happens to the wave function when a measurement is made?

However, when a measurement is made, the wave function collapses—from an observer’s perspective—to just one of the basis states, and the property being measured uniquely acquires the eigenvalue of that particular state, . After the collapse, the system again evolves according to the Schrödinger equation.

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