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Applying the Correspondence Principle to the Three-Dimensional Rigid Rotor
David KeeportsMills [email protected]
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Quantum MechanicalCorrespondence Principle
“Quantum systems appear to be classical when their quantum
numbers are very large.”
No system strictly obeys classical mechanics
Instead, all systems are quantum systems, but …
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The Instructional Challenge in Presenting the Correspondence Principle
Consider “obviously classical” systems and show that they are
really quantum systems
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Correspondence Principle Applied to Fundamental Quantum Systems
Particle in 1-Dimensional BoxParticle in 3-Dimensional Box
Harmonic Oscillator2-Dimensional Rigid Rotor
3-Dimensional Rigid Rotor
Hydrogen Atom
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Particle in 1-Dimensional Box
uniform probability distribution from x = 0 to x = L
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Particle in 3-Dimensional Box
uniform probability distributionwithin 3-dimensional box
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Harmonic Oscillator
probability is enhanced at turning points
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2-Dimensional Rigid Rotor
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In each case as a quantum number increases by 1,
System energy appears to be a continuous function, i.e.,
quantization not evident
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Consider a rigid rotor of binary stardimensions rotating in xy-plane
A Classical Three-Dimensional Rigid Rotor
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Assume both masses are solar masses M and separation is constant at r = 10 AU
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But does this 3-D rotor really obey classical mechanics?
No, it is a quantum system that only appears to obey classical mechanics
because its quantum numbers are very large!
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Eigen-Operators for 3-D Rigid Rotors
Why Are Quantum Numbers Large?
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Eigenvalues of Operators
Spherical Harmonics Are Eigenfunctions
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For assumed orbit in the xy-plane, angular momentum and its z-component are
virtually indistinguishable, so …
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The Size of J = MJ
Large!
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Energy and the Correspondence Principle
Suppose that J increases by 1:
Energy quantization unnoticed
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Rotor Orientation From Spherical Harmonic Wavefunctions
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Because
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probability is proportional to Df
No f is favored
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Localization of axis at a particular f requires superposition of wavefunctions
with a range of angular momentum values
Uncertainty principle: Angular certainty comes at the expense of
angular momentum certainty
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The Hydrogen Atom Problem in the Large Quantum Number Limit:
Consider Earth-Sun System
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Results for Quantum Earth
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Assumed circular orbit implies
consistent with correspondence principle
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With , implies that Earth’s
spatial probability distribution is
y
0 x
Earth is in a hydrogen-like orbital characterized by huge quantum numbers
Quantum Mechanical Earth: Where Orbitals Become Orbits. European Journal of Physics, Vol. 33, pp. 1587-98 (2012)
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