Configuration state function
In quantum chemistry, a configuration state function (CSF), is a symmetry-adapted linear combination of Slater determinants. A CSF must not be confused with a configuration. In general, one configuration gives rise to several CSFs; all have the same total quantum numbers for spin and spatial parts but differ in their intermediate couplings.
- Comment
- enIn quantum chemistry, a configuration state function (CSF), is a symmetry-adapted linear combination of Slater determinants. A CSF must not be confused with a configuration. In general, one configuration gives rise to several CSFs; all have the same total quantum numbers for spin and spatial parts but differ in their intermediate couplings.
- Has abstract
- enIn quantum chemistry, a configuration state function (CSF), is a symmetry-adapted linear combination of Slater determinants. A CSF must not be confused with a configuration. In general, one configuration gives rise to several CSFs; all have the same total quantum numbers for spin and spatial parts but differ in their intermediate couplings.
- Hypernym
- Combination
- Is primary topic of
- Configuration state function
- Label
- enConfiguration state function
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- Angular momentum
- Category:Quantum chemistry
- Clebsch–Gordan coefficients
- Combination
- Configuration interaction
- Electron configuration
- Good quantum number
- Graphical Unitary Group Approach
- Multi-configurational self-consistent field
- Pauli exclusion principle
- Quantum chemistry
- Slater determinant
- Spin (physics)
- SameAs
- 2ZL3b
- Fonction d'état de configuration
- m.096xk3
- Q2742829
- 组态态函数
- 配置状態関数
- Subject
- Category:Quantum chemistry
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- Configuration state function?oldid=996412084&ns=0
- WikiPageLength
- 13571
- Wikipage page ID
- 3345298
- Wikipage revision ID
- 996412084
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- Template:Reflist
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