Examples of 'wavefunction' in a sentence
Meaning of "wavefunction"
wavefunction (noun) - a function that describes the properties of a quantum-mechanical system, giving the probability amplitude of each possible state of the system
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- A mathematical function that describes the propagation of the quantum mechanical wave associated with a particle (or system of particles), related to the probability of finding the particle in a particular region of space.
How to use "wavefunction" in a sentence
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wavefunction
The wavefunction is now not a probability wave.
There can be no reduction of the wavefunction now.
The wavefunction is a solution to this geometry.
This feature of the mathematics is known as wavefunction collapse.
For fermions the wavefunction is antisymmetric.
A wavefunction that describes the behaviour of an electron in a molecule.
Then we say that the wavefunction is properly normalized.
Like the collapse of a quantum wavefunction.
The are the wavefunction of pure state of.
Nonlocal consciousness collapses the wavefunction.
This is the same wavefunction as in conventional quantum mechanics.
All information about the system is contained in the wavefunction.
The wavefunction describes the system.
Orbital as the unperturbed wavefunction.
This forces the wavefunction to be antisymmetric under particle interchange.
See also
If it is assumed that this wavefunction is.
We apply a dynamical wavefunction collapse model to the description of inflationary perturbations.
Collapse of the wavefunction.
Wavefunction of a single photon.
Observers separate the universal wavefunction into orthogonal sets of experiences.
These two dimensions are perpendicular to the direction of propagation of the wavefunction.
Quantum wavefunction collapse.
Both parts of the brain are necessary for wavefunction collapse to occur.
This makes the wavefunction of systems of many particles extremely complicated.
Phase of the wavefunction.
The wavefunction for each ground state is a product of these singlet pairs.
In quantum theory there is no atom in addition to the wavefunction of the atom.
The phase of the quantum wavefunction encodes internal degrees of freedom.
Bohm accepts that all the branches of the universal wavefunction exist.
The wavefunction is a mathematical function that describes the quantum state of a particle.
This information is extracted from the wavefunction through the use of mathematical operators.
The wavefunction moves to the right and becomes more dispersed as time goes on.
It requires a special setup for the conditional wavefunction of a system to obey a quantum evolution.
The wavefunction must therefore vanish everywhere beyond the edges of the box.
The objective collapse of the quantum wavefunction of the microtubules is critical for consciousness.
The wavefunction itself does not predict which one of us will observe the molecule.
The measurement process causes the wavefunction to collapse into one of the two states.
The true wavefunction should also be a function of the coordinates of each of the nuclei.
What one can know about a particle at any given time is described by the wavefunction.
The observer will have a wavefunction which describes all the possible outcomes.
Heisenberg did not try to specify exactly what the collapse of the wavefunction meant.
In all circumstances the universal wavefunction is still available to give a complete description of reality.
A wavefunction different from the exact one is obtained by use of the method described above.
Entanglement is the weird quantum process in which a single wavefunction describes two separate objects.
The original systems wavefunction can be expanded arbitrarily as a sum of elements in a quantum superposition.
One problem for the Copenhagen interpretation is to precisely define wavefunction collapse.
Only the wavefunction can change and it changes in accordance with quantum theory.
The equation describes how the Schrödinger wavefunction y propagates in time and space.
The sign of the wavefunction should not be confused with a positive or negative electrical charge.
Both particle AND guiding wavefunction are real.
