KitK said:Greetings,
I was wondering if a fully ionized atom would interact with a photon. Id expect so but can't seem to find any info about it.
Thanks!
Physics Novice
ZapperZ said:Er... protons, which are "fully ionized" hydrogen atoms, are accelerated in particle accelerators using RF, which is an electromagnetic wave, i.e. photons. This is what is done at the Tevatron, LHC, etc. So yes, photons do interact with atomic nucleus.
Zz.
KitK said:Zapper Z
I always thought of that more as surfing the wave. My poorly composed question was more along the lines of whether thay actually absorb the energy. Of course that may be the case and the "surfing' analogy should go in the wastbasket.
Thanks
Drakkith said:Zapper, what exactly do you mean? Are they shooting radio wave photons at these protons, or applying a high voltage to part of the accelerator, or what exactly?
ZapperZ said:I can't read minds. All you asked for is if photons INTERACTS with atomic nuclei. Being accelerated by such RF is a clear example that it does.
"RF" is a broad spectrum. I accelerate electrons using 1.3 GHz RF.
There aren't that many "DC" accelerator, i.e. where they apply static fields. Most accelerating structure, and certainly the ones at major accelerators, use RF sources, mainly out of Klystrons.
Zz.
sophiecentaur said:On a historical note, the early accelerators used DC from a Van der Graaff generator. A blistering 1MeV or thereabouts!
Yes, light interacts with an atomic nucleus through the process of scattering. When a photon of light collides with an atomic nucleus, it can be scattered in a new direction, changing the direction and energy of the photon.
Light interacts with an atomic nucleus through the electromagnetic force. The nucleus contains positively charged protons, which are attracted to the negatively charged electrons in the photon. This interaction causes the photon to be absorbed, scattered, or emitted.
When light interacts with an atomic nucleus, the energy of the photon can be absorbed by the nucleus, causing it to become excited. This can lead to changes in the nuclear structure, such as the emission of gamma radiation or the creation of new particles.
Yes, light can interact with all types of atomic nuclei, including those of different elements and isotopes. However, the strength of the interaction may vary depending on the properties of the nucleus, such as its size and charge.
The interaction between light and atomic nuclei is the basis for many technologies, including nuclear power, medical imaging, and particle accelerators. It also plays a crucial role in our understanding of the structure and behavior of matter at the atomic level.