It is shown, using several methods, that circularly polarized microwave radiation induces fermion resonance which is proportional to the power density divided by the square of the angular frequency of the microwave radiation. By adjusting conditions, the resonance can be made to occur at much higher frequencies than those obtainable with contemporary superconducting magnet technology, and occurs without the use of permanent magnets due to the interaction of the conjugate product of the field with the Pauli matrix representing the half integral spin of the fermion.
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