- #1
WarPhalange
Effing Virtual States -- How do they work?
I want to talk to a scientist because this is pissing me off. >:-(
So, I'm learning about CARS and Raman spectroscopy. Since Day 1 of Modern Physics I've been told that atoms have discrete energy levels and only the only way to get an electron from n = 1 to n = 2 is by giving it energy equal to n1 - n2.
Now I get told that there are "virtual states" that an electron can use as a middle man between two eigenstates. It's never actually in the virtual states, it just uses it to hop to an allowed state.
So for example, in Raman spectroscopy you hit the atom with some frequency w > n1 - n2, an electron jumps to some virtual state, then goes back down to some other state, and releases a photon of frequency w - n1 + n2. What exactly is happening here?
I know that without virtual states it would be mathematically impossible for the electron to do that, so I'm not questioning whether they are a hoax or whatever, but I don't get the details.
I want to talk to a scientist because this is pissing me off. >:-(
So, I'm learning about CARS and Raman spectroscopy. Since Day 1 of Modern Physics I've been told that atoms have discrete energy levels and only the only way to get an electron from n = 1 to n = 2 is by giving it energy equal to n1 - n2.
Now I get told that there are "virtual states" that an electron can use as a middle man between two eigenstates. It's never actually in the virtual states, it just uses it to hop to an allowed state.
So for example, in Raman spectroscopy you hit the atom with some frequency w > n1 - n2, an electron jumps to some virtual state, then goes back down to some other state, and releases a photon of frequency w - n1 + n2. What exactly is happening here?
I know that without virtual states it would be mathematically impossible for the electron to do that, so I'm not questioning whether they are a hoax or whatever, but I don't get the details.