Molecular Quantum Numbers

« all quantum number cases

10. sphcs: Closed-shell, spherical-top molecules

sphcs:ElecStateLabel

Description

ElecStateLabel is a label identifying the electronic state: X, A, a, B, etc.

Restrictions

• string

sphcs:F

Description

F is the quantum number associated with the total angular momentum including nuclear spin: F = J + I₁ if only one such coupling is resolved, F = F_j-1 + I_j if two or more such couplings are resolved.

Attributes

• nuclearSpinRef: a label identifying the nuclear spin coupled to J (or F_j) to form the total angular momentum

Restrictions

• non-negative integer or half-integer

sphcs:F_j

Description

F_j is the intermediate angular momentum quantum number associated with the coupling of the nuclear spin angular momentum of nucleus j to the intermediate angular momentum: F₁ = J + I₁ or F_j = F_j-1 + I_j; F_j is often not a good quantum number.

Attributes

• nuclearSpinRef: a label identifying the nuclear spin being coupled to J or F_j-1 to form an intermediate angular momentum
• j: an integer label identifying the order of the hyperfine coupling

Restrictions

• non-negative integer or half-integer

sphcs:I

Description

I is a nuclear spin quantum number corresponding to the coupling of the nuclear spin angular momenta of two or more identical nuclei, I = I₁ + I₂ + ....

Attributes

• nuclearSpinRef: a whitespace delimited list of labels identifying the nuclear spins coupled to form I
• id: a label identifying the nuclear spin angular momentum, I, formed by this coupling

Restrictions

• non-negative integer or half-integer

sphcs:J

Description

J is the quantum number associated with the total angular momentum excluding nuclear spin, J.

Restrictions

• non-negative integer

sphcs:l_i

Description

l_i is the vibrational angular momentum quantum number associated with the degenerate ν_i normal mode; positive and negative values distinguish l–type doubling components.

Attributes

• mode: a positive integer, identifying the degenerate normal mode that this vibrational angular momentum quantum number is associated with

Restrictions

• non-negative integer
• |l_i| = v_i, v_i-2, ..., 1 or 0

sphcs:parity

Description

parity is the total parity: the parity of the total molecular wavefunction (excluding nuclear spin) with respect to inversion through the molecular centre of mass of all particles' coordinates in the laboratory coordinate system, the E^* operation.

Restrictions

• '+' or '-'

sphcs:r

Description

r is a named, positive integer label identifying the state if no other good quantum numbers or symmetries are known.

Attributes

name: a string identifying this ranking index

Restrictions

• positive integer

sphcs:rotSym

Description

rotSym is the symmetry species of the rotational wavefunction, in some appropriate symmetry group.

Attributes

• group: the symmetry group to which this species belongs

Restrictions

• string

sphcs:rovibSym

Description

rovibSym is the symmetry species of the rovibrational wavefunction, in some appropriate symmetry group.

Attributes

• group: the symmetry group to which this species belongs

Restrictions

• string

sphcs:sym

Description

sym is A named symmetry label, in some appropriate symmetry group.

Attributes

• name: the name of this symmetry label
• group: the symmetry group to which this symmetry label applies

Restrictions

string

sphcs:v_i

Description

v_i is the vibrational quantum number associated with the ν_i normal mode.

Attributes

• mode: a positive integer, identifying the normal mode that this quantum number is associated with

Restrictions

• non-negative integer

sphcs:vibSym

Description

vibSym is the symmetry species of the vibrational wavefunction, in some appropriate symmetry group.

Attributes

• group: the symmetry group to which this species belongs

Restrictions

• string