Wave function of bonding orbital of Hydrogen molecule

Gavroy
Messages
232
Reaction score
0
Hi

I am currently looking for the wavefunction of the bonding orbital of the hydrogen molecule. Does anybody here know how this one might look like? So, since there is no complete analytical solution for the Hydrogen atom Schrödinger equation, I am currently looking for approximations of this one.
 
Physics news on Phys.org
Any book on quantum chemistry has an at length discussion of that topic, e.g. Ira N. Levine, Quantum Chemistry.
A crisp introduction into molecular bonding is also the following article by Kutzelnigg:
http://muddyhighheels.com/forum/viewforum.php?f=7

Also note that a description in terms of orbitals is itself an approximation, called molecular orbital theory.
To a lowest approximation, the orbitals in H2 are simply taken as a normalized sum the the two 1s orbitals of the two hydrogens (LCAO approximation, linear combination of atomic orbitals).
A valence bond description of the hydrogen molecule, which doesn't use molecular orbitals at all and was also introduced by Heitler and London before the MO description, performs somewhat better.

Finally this question is more apt for the atomic, solid state and computational physics forum.
 

Thread 'Quantum Entanglement is a Kinematic Fact, not a Dynamical Effect'

Insights auto threads is broken atm, so I'm manually creating these for new Insight articles. Towards the end of the first lecture for the Qiskit Global Summer School 2025, Foundations of Quantum Mechanics, Olivia Lanes (Global Lead, Content and Education IBM) stated... Source: https://www.physicsforums.com/insights/quantum-entanglement-is-a-kinematic-fact-not-a-dynamical-effect/ by @RUTA
View full post »

Thread 'Is It Known For Sure Infinites In QFT Are Caused Using a Continuum?'

I am reading WHAT IS A QUANTUM FIELD THEORY?" A First Introduction for Mathematicians. The author states (2.4 Finite versus Continuous Models) that the use of continuity causes the infinities in QFT: 'Mathematicians are trained to think of physical space as R3. But our continuous model of physical space as R3 is of course an idealization, both at the scale of the very large and at the scale of the very small. This idealization has proved to be very powerful, but in the case of Quantum...
View full post »
Thread 'Lesser Green's function'

Thread 'Lesser Green's function'

The lesser Green's function is defined as: $$G^{<}(t,t')=i\langle C_{\nu}^{\dagger}(t')C_{\nu}(t)\rangle=i\bra{n}C_{\nu}^{\dagger}(t')C_{\nu}(t)\ket{n}$$ where ##\ket{n}## is the many particle ground state. $$G^{<}(t,t')=i\bra{n}e^{iHt'}C_{\nu}^{\dagger}(0)e^{-iHt'}e^{iHt}C_{\nu}(0)e^{-iHt}\ket{n}$$ First consider the case t <t' Define, $$\ket{\alpha}=e^{-iH(t'-t)}C_{\nu}(0)e^{-iHt}\ket{n}$$ $$\ket{\beta}=C_{\nu}(0)e^{-iHt'}\ket{n}$$ $$G^{<}(t,t')=i\bra{\beta}\ket{\alpha}$$ ##\ket{\alpha}##...
View full post »

Similar threads

I Understanding Covalent Bonds: The Stability of Matter Explained
Replies
8
Views
2K
I General solution of the hydrogen atom Schrödinger equation
Replies
9
Views
3K
B What happens when ethane absorbs UV light?
Replies
4
Views
2K
I Why Does Molecular Potential Energy Curve Have That Specific Shape?
Replies
26
Views
2K
B How to think of molecular orbitals quantum mechanically
Replies
7
Views
2K
I Orbitals and selection rules in a synchrotron
Replies
18
Views
2K
I Why is the SE better than the KG equation for a hydrogen atom?
Replies
18
Views
3K
I Completeness of Eigenfunctions of Hermitian Operators
Replies
22
Views
2K
Rationale for 6n+2 rule for the number of pi bonds in a non-cyclic molecule
Replies
3
Views
1K
B Wave-particle duality of atoms and molecules
Replies
38
Views
4K

Hot Threads

Recent Insights

Back
Top