DrDu said:I knew a guy called Alejandro Saenz who calculated the excited states of hydrogen molecules with high precision. Look out for his papers in google scholar. I think he is now professor in Berlin.
Molecular hydrogen excitation refers to the process by which the energy levels of hydrogen molecules are increased, usually through the absorption of energy from an external source such as heat, light, or electricity.
Molecular hydrogen can be excited to different levels, with the lowest being the ground state and the highest being the excited state. In between, there are various vibrational and rotational energy levels that the molecule can occupy.
When molecular hydrogen is excited, its properties, such as its reactivity and stability, can change. This is due to the fact that the increased energy levels can cause the molecule to behave differently and potentially form new chemical bonds.
There are several ways to excite molecular hydrogen, including heating it to high temperatures, exposing it to intense light or radiation, or using electric or magnetic fields to increase its energy levels.
Molecular hydrogen excitation plays a crucial role in many fields of science and technology, including chemistry, astronomy, and energy production. It is also important in understanding the behavior of molecules in different environments and can lead to advancements in areas such as fuel cells and chemical reactions.