Difference between revisions of "Compton Effect is a Raman Wave Effect"
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| − | Intensities of scattered rays are not explicable in terms of Quantum Mechanics, which presupposes a X-ray photon that carry energy E=hf. Therefore, QM is inherently flawed. The Compton effect can be interpreted to be a Raman effect. The Raman effect can be interpreted in terms of wave theory. An incident X ray causes an excitation of the crystal. The crystal is coupled with an electromagetic medium that works as a transmitter. The Raman-like frequencies shifts that we observe are the eigenfrequencies oft this medium.[[Category:Scientific Paper]] | + | Intensities of scattered rays are not explicable in terms of Quantum Mechanics, which presupposes a X-ray photon that carry energy E=hf. Therefore, QM is inherently flawed. The Compton effect can be interpreted to be a Raman effect. The Raman effect can be interpreted in terms of wave theory. An incident X ray causes an excitation of the crystal. The crystal is coupled with an electromagetic medium that works as a transmitter. The Raman-like frequencies shifts that we observe are the eigenfrequencies oft this medium. |
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| + | [[Category:Scientific Paper|compton effect raman wave effect]] | ||
Latest revision as of 10:10, 1 January 2017
| Scientific Paper | |
|---|---|
| Title | Compton Effect is a Raman Wave Effect |
| Author(s) | Johann Marinsek |
| Keywords | compton effect |
| Journal | None |
Abstract
Intensities of scattered rays are not explicable in terms of Quantum Mechanics, which presupposes a X-ray photon that carry energy E=hf. Therefore, QM is inherently flawed. The Compton effect can be interpreted to be a Raman effect. The Raman effect can be interpreted in terms of wave theory. An incident X ray causes an excitation of the crystal. The crystal is coupled with an electromagetic medium that works as a transmitter. The Raman-like frequencies shifts that we observe are the eigenfrequencies oft this medium.
