Plasma device driven by multiple-phase alternating or pulsed electrical current

1 - 34 . (canceled) 35 . A plasma source comprising: at least three electrodes, including a first electrode, a second electrode, and a third electrode; and a source of power capable of producing multiple output waves, including a first output wave, a second output wave, and a third output wave, wherein the first output wave and the second output wave are out of phase, the second output wave and the third output wave are out of phase, and the first output wave and the third output wave are out of phase; wherein each electrode is electrically connected to the source of power such that the first electrode is electrically connected to the first output wave, the second electrode is electrically connected to the second output wave, and the third electrode is electrically connected to the third output wave; wherein electrical current flows between the at least three electrodes that are out of electrical phase; wherein each electrode alternately serves as anode and cathode when powered by the multiple output waves, and wherein the plasma source is capable of generating a plasma between the electrodes. 36 . The plasma source of claim 35 , wherein the plasma generated by the plasma source includes active electron emission for at least 80% of a period of the multiple output waves. 37 . The plasma source of claim 35 , wherein the plasma generated by the plasma source includes active electron emission for at least 90% of a period of the multiple output waves. 38 . The plasma source of claim 35 , wherein the plasma generated by the plasma source includes active electron emission for 100% of a period of the multiple output waves. 39 . The plasma source of claim 35 , wherein the at least three electrodes are out of electrical phase by a phase angle different from 180°. 40 . The plasma source of claim 35 , wherein the at least three electrodes are out of electrical phase by a phase angle of 120°. 41 . The plasma source of claim 35 , wherein each adjacent pair of the at least three electrodes is out of electrical phase by the same phase angle as each other adjacent pair of the at least three electrodes. 42 . The plasma source of claim 35 , wherein the at least three electrodes are hollow cathodes. 43 . The plasma source of claim 35 , wherein the at least three electrodes are each electrically insulated. 44 . The plasma source of claim 35 , wherein current flow is comprised of electrons derived from secondary electron emission. 45 . The plasma source of claim 35 , wherein the current flow is comprised of electrons derived from thermionic-emitted electrons. 46 . The plasma source of claim 35 , wherein the at least three electrodes are linearly arranged. 47 . The plasma source of claim 35 , wherein the at least three electrodes are configured to direct each plasma to a common line. 48 . The plasma source of claim 35 , wherein a distance between each pair of the at least three electrodes is the same distance. 49 . The plasma source of claim 35 , wherein the electrical current flowing between the at least three electrodes that are out of electrical phase is a result of an electric potential difference between the at least three electrodes. 50 . The plasma source of claim 49 , wherein the electric potential difference is at least 50V between any two of the at least three electrodes. 51 . The plasma source of claim 49 , wherein the electric potential difference is at least 200V between any two of the at least three electrodes. 52 . The plasma source of claim 35 , wherein the multiple output waves comprise square waves whereby the electric potential difference is reduced relative to sinusoidal waves for the same overall power input. 53 . The plasma source of claim 35 , wherein the source of power is in the form of AC electrical energy. 54 . The plasma source of claim 35 , wherein the source of power is in the form of pulsed electrical energy. 55 . The plasma source of claim 35 , wherein the generated plasma is uniform over its length in the substantial absence of magnetic-field driven closed circuit electron drift. 56 . The plasma source of claim 35 , wherein the plasma is made uniform over its length from about 0.1 m to about 1 m. 57 . The plasma source of claim 35 , wherein the plasma is made uniform over its length from about 1 m to about 4 m. 58 . The plasma source of claim 35 , wherein the frequencies of each of the multiple output waves are equal and are in the range from about 1 kHz to about 500 MHz. 59 . The plasma source of claim 35 , wherein the frequencies of each of the multiple output waves are equal and are in the range from about 1 kHz to about 1 MHz. 60 . The plasma source of claim 35 , wherein the frequencies of each of the multiple output waves are equal and are in the range from about 10 kHz to about 200 kHz. 61 . The plasma source of claim 35 , wherein the frequencies of each of the multiple output waves are equal and are in the range from about 20 kHz to about 100 kHz. 62 . The plasma source of claim 35 , wherein the electrons from an emitting surface of each of the at least three electrodes are not confined by magnetic fields. 63 . The plasma source of claim 35 , wherein at least one of the multiple output waves produced by the source of power is configured to power a plurality of the at least three electrodes.