Harmonic Oscillator and Rigid Rotator

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Presentation transcript:

Harmonic Oscillator and Rigid Rotator Yao-Yuan Chuang

Outline Classical Harmonic Oscillator Conservation of Energy of a Classical Oscillator Harmonic Oscillator Model of a Diatomic Molecule The Harmonic Oscillator Approximation The Energy Levels of a Quantum Mechanical Harmonic Oscillator Infrared Spectra of Diatomic Molecules

E. Bright Wilson, Jr. (1908-1992) Studied with Linus Pauling. Wrote 3 famous books, Introduction to Q.M., Molecular Vibrations, and Introduction to Scientific research. His son Kenneth was awarded Nobel Prize in 1982.

Molecular Motion Particle in the box is useful for understanding how translational motion in various potentials. Vibration – Harmonic Oscillator Rotation – Rigid Rotator

Harmonic Oscillator Consider a mass m connected to a wall by a spring stretched compressed

Example Show the general solution can be written in the form Solution:

Total Energy

Harmonic Oscillator of a Diatomic Molecule

Harmonic Oscillator of a Diatomic Molecule

Internuclear Potential Only lowest one or two vibrational energy levels are occupied for most molecules for ~300K harmonic Anharmonic i.e. Morse Bond Length V(x) = ½ k x2 k: force constant

Force Constants

Quantum Harmonic Oscillator The Schrodinger Equation for a one-dimensional harmonic oscillator is

Wave Functions The wave functions corresponding to the eigenvalues for a harmonic oscillator are nondegenerate

Quantum Harmonic Oscillator

Wave Functions

Wave Functions

Example Problem 18.1

Example Problem 18.2

Example Show that Y0 and Y1 are normalized and orthogonal to each other

Useful Integrals

Spherical Coordinates

Spherical and Cartesian

Integration

Integration

Example

Solid Angle The solid enclosed by the surface that connects the origin and the area DA is called solid angle

Example

Molecular Motion

Classical Rigid Rotor

Classical Rigid Rotator

Quantum Rigid Rotor in 2D

Exmaple Problem 18.4

Rigid rotor in 2D

Rigid rotor in 2D

Rigid Rotator in 3D

Rigid Rotor in 3D

Quantization of Angular Momentum

Quantization of Angular Momentum

Spherical Harmonic Functions

Spherical Harmonics Y(0,0) Y(1,0) Y(1,1) Y(1,-1)

Spherical Harmonics Y(2,1) Y(2,0) Y(2,2) Y(2,-2) Y(2,-1)

Spherical Harmonics Y(3,2) Y(3,-2) Y(3,1) Y(3,-1) Y(3,0) Y(3,3)

Spherical Harmonic Functions

Spatial Quantization

Classical Mechanics Assume a particle with mass (m) moving with velocity (v) in a circular path (radius r) with linear momentum p (=mv) v m  r Conservation of angular momentum

Orbital Angular Momentum in Quantum Mechanics and Vector Model md=0,=90 md=+1, =65.9 md=+2, =35.3 md=-1, =114 md=-2, =144.7

Total Angular Momentum

Addition and Conservation of Angular Momentum in Quantum Mechanics d1 and d2 are not coupled, each precesses about the z axis independently. d1,d2,m1,m2 are good quantum numbers, and they are separately obseravable. d d2 m d1 and d2 are coupled to form d and they precess together in phase, no longer have constant z component, d1,d2,m1,m2 are not good quantum numbers d1

Angular Momentum Operator

Notation Orbital angular momentum of an electron in an atom (l and ml) Spin angular momentum of an electron (s and ms) Total angular momentum of an electron (j and mj) For more than one electron (L,ML,S,MS,J,MJ) Nucleus (I and MI) Diatomic molecules (J and MJ) Molecule (R and MR)

Example

Example

Example

Angular momentum operator

Commutator of Angular momentum operator

Commutator of Angular momentum operator

Commutator of Angular momentum operator