Park, G.Y. You, S.J. Iza, Felipe Lee, Jae Koo Abnormal heating of low-energy electrons in low-pressure capacitively coupled discharges In low-pressure capacitively coupled plasmas, high-energy electrons are collisionlessly heated by large rf fields in the sheaths while low-energy electrons are confined in the bulk plasma by the ambipolar potential. Low-energy electrons are typically inefficiently heated due to their low collisionality and the weak rf electric field present in the bulk. It is shown, however, that as a result of the nonlinear interaction between the electron motion and the weak rf field present in the bulk, low-energy electrons can be efficiently heated. Electrons in the bulk that bounce inside the electrostatic potential well with a frequency equal to the rf excitation frequency are efficiently heated by the coherent interaction with the rf field. This resonant collisionless heating can be very efficient and manifest itself as a plateau in the electron energy probability function. untagged;Mechanical Engineering not elsewhere classified 2008-02-25
    https://repository.lboro.ac.uk/articles/journal_contribution/Abnormal_heating_of_low-energy_electrons_in_low-pressure_capacitively_coupled_discharges/9547823