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One of the greatest challenges is controlling or removing quantum decoherence.
This is related to the emergence of classical probability rules in quantum decoherence.
Quantum decoherence ensures that the different outcomes have no interaction with each other.
Wave function collapse is not fundamental from the perspective of quantum decoherence.
The density matrix is also a crucial tool in quantum decoherence theory.
However, according to the theory of quantum decoherence, these "parallel universes" will never be accessible to us.
The interpretation based on consistent histories is used in combination with the insights about quantum decoherence.
"The importance of quantum decoherence in brain processes".
This issue remained until quantum decoherence entered mainstream opinion after its reformulation in the 1980s.
In modern interpretations, quantum decoherence accounts for subjectively probabilistic behavior.
In chapter we will consider "quantum decoherence."
The same mechanism of quantum decoherence is also important for the interpretation in terms of consistent histories.
This is because of quantum decoherence.
However classical and quantum calculations show that quantum decoherence effects do not play role in brain activity.
It is this process, called quantum decoherence, that gives rise to the everyday world in which things can be in only one place at a time.
This usually means isolating the system from its environment as the slightest interaction with the external world would cause the system to quantum decoherence.
The interference terms vanish, via the mechanism of quantum decoherence, if the intermediate state is measured or coupled with the environment.
It shares many features with the subjects of quantum decoherence and quantum theory of measurement.
Quantum decoherence, on the other hand (in combination with the consistent histories approach), recovers classical behaviour at the macroscopic level.
A symphony of quantum decoherence on a cosmic scale, sweeping through the solar system and battering into the Earth like a kind of wind.
Her guide, the Space Hopper, reassures the Cat with a modern view of quantum decoherence.
The fragility of quantum effects in macroscopic objects may arise from rapid quantum decoherence.
The significance of the Zeno effect in determining the rate of quantum decoherence in biological systems remains unknown.
He has been instrumental in developing the consistent histories and quantum decoherence approaches in quantum mechanics.
The mathematical developments which allowed this progress have taken place in two fields: quantum decoherence and the consistent histories approach to quantum mechanics.