Difference between revisions of "Extra:Quantum wave time evolution example"

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Revision as of 08:53, 4 November 2014

Particles in quantum mechanics can be thought of as wave packets that evolve in time according to the Schrödinger Equation. Even in cases where the square of the wavefunction () appears static ("stationary states"), the complex amplitude of the wavefunction () is in fact varying in time. In particular, the form of the time-dependent Schrödinger Equation demands that the amplitude oscillate (roughly, the amplitude oscillates between the real and imaginary components; i.e. the vector in the complex plane rotates continuously).

Example: Propagation and Interaction

Wave-packets can propagate, frequently with dispersion (which induces spatial spread of the envelope). Wave-packets can interact with barriers (defined by, e.g., some potential function), and interfere with themselves.

Components of the wavefunction () describing a wave-packet bouncing inside a box-like potential. The black line is the real part, and the blue line is the imaginary part.
Square of the wavefunction () for a wave-packet bouncing inside a box-like potential.


Example: Oscillation in Stationary State

TBD