Harmonic oscillator (quantum)

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Revision as of 06:53, 29 January 2009 by imported>Paul Wormer (New page: [[Image:Oscillator.png|right|thumb|350px|First four harmonic oscillator functions. Potential is shown as reference. Zero of function ''n''=0,1,2,3 is shifted upward by the energy value ('...)
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First four harmonic oscillator functions. Potential is shown as reference. Zero of function n=0,1,2,3 is shifted upward by the energy value (n+½) h ν

In quantum mechanics, the one-dimensional harmonic oscillator is one of the few systems that can be treated exactly. Its time-independent Schrödinger equation has the form

The two terms between square brackets are the Hamiltonian (energy operator) of the system: the first term is the kinetic energy operator and the second the potential energy operator. The quantity is Planck's reduced constant, m is the mass of the oscillator, ∇² is the Laplace operator (del squared), and k is Hooke's spring constant.