Difference between revisions of "Monitor and operate the microwaves / know how to find correct frequency"
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In order to start looking for the optimum millimeter/microwave frequency, the variables below are important to know. Note that here the frequencies are given in GHz, as the frequency for 5 T fields will always be around 140 GHz. | In order to start looking for the optimum millimeter/microwave frequency, the variables below are important to know. Note that here the frequencies are given in GHz, as the frequency for 5 T fields will always be around 140 GHz. | ||
− | * Electron Gyromagnetic Ratio: <math>\frac{\gamma_e}{2\pi}=28. | + | * Electron Gyromagnetic Ratio: <math>\frac{\gamma_e}{2\pi}=28.024~951~6~\mathrm{GHz/T}</math> |
− | * Proton Gyromagnetic Ratio: <math>\frac{\gamma_p}{2\pi}=0. | + | * Proton Gyromagnetic Ratio: <math>\frac{\gamma_p}{2\pi}=0.042~577~478~92~\mathrm{GHz/T}</math> |
− | * Deuteron Gyromagnetic Ratio: <math>\frac{\gamma_D}{2\pi}=0. | + | * Deuteron Gyromagnetic Ratio: <math>\frac{\gamma_D}{2\pi}=0.006~535~902~311~\mathrm{GHz/T}</math> |
==Proton Frequency== | ==Proton Frequency== |
Revision as of 21:26, 11 June 2020
Using LabView for mmWaves
- (David?)
Finding the correct frequency
In order to start looking for the optimum millimeter/microwave frequency, the variables below are important to know. Note that here the frequencies are given in GHz, as the frequency for 5 T fields will always be around 140 GHz.
- Electron Gyromagnetic Ratio: <math>\frac{\gamma_e}{2\pi}=28.024~951~6~\mathrm{GHz/T}</math>
- Proton Gyromagnetic Ratio: <math>\frac{\gamma_p}{2\pi}=0.042~577~478~92~\mathrm{GHz/T}</math>
- Deuteron Gyromagnetic Ratio: <math>\frac{\gamma_D}{2\pi}=0.006~535~902~311~\mathrm{GHz/T}</math>