HMS-776 said:Good answer!
Lets say I only have 2 choices:
1. I can use the resonant excitation wavelengths (we'll say they are all longer than 450nm)
2. Or i can use UV at 370nm
Wouldn't the UV contrubute more to the ionization than the resonant excitation wavelengths since the UV is shorter (higher energy)?
Photon absorption is the process by which an atom or molecule absorbs a photon of light energy, causing an electron to move from a lower energy level to a higher energy level.
Photon absorption can aid in ionization by providing the necessary energy to remove an electron from an atom or molecule, resulting in the formation of an ion.
The wavelength of a photon determines its energy, and therefore its ability to be absorbed by an atom or molecule. Different wavelengths correspond to different energy levels, and only photons with enough energy can be absorbed for ionization to occur.
Yes, there are specific wavelengths that are more effective for photon absorption and ionization, depending on the substance being studied. This is because each substance has its own unique energy levels, and therefore requires a specific amount of energy to be absorbed for ionization to occur.
Studying photon absorption wavelengths for ionization can have a wide range of practical applications, including in fields such as material science, astronomy, and environmental science. It can also be used in various technologies, such as solar cells and lasers.