Oscillating combustor with pulsed charger

What is claimed is: 1. An oscillating combustor, comprising: a fuel nozzle configured to emit an expanding area fuel jet; a first flame holder disposed distally along the fuel jet; a second flame holder disposed proximally along the fuel jet; and a variable-charge ionizer configured to apply a time-varying charge to the fuel jet or a flame supported by the fuel jet; one of a digital- or analog-logic controlled switch configured to control the variable current ionizer, wherein the time-varying charge is selected to cause a flame front supported by the fuel jet to oscillate in position between the first and second flame holders by; wherein the switch includes an insulated gate bipolar transistor (IGBT) operatively coupled to the variable-current ionizer and configured to control when the variable current ionizer applies charge to the flame or fuel stream and when the variable current ionizer does not apply charge to the flame or fuel stream. 2. The oscillating combustor of claim 1 , wherein the fuel nozzle is configured to emit a substantially constant flow rate fuel jet. 3. The oscillating combustor of claim 1 , wherein the fuel nozzle is configured to emit a variable flow rate fuel jet. 4. The oscillating combustor of claim 1 , wherein the fuel nozzle is configured to emit a variable flow rate fuel jet that is synchronized with the time-varying charge applied by the variable-charge ionizer. 5. The oscillating combustor of claim 1 , wherein the time-varying charge includes a high-voltage charge. 6. The oscillating combustor of claim 1 , wherein the second flame holder is configured to be held in substantial continuity with an activation voltage source. 7. The oscillating combustor of claim 6 , wherein the activation voltage source is configured to apply a voltage ground potential to the second flame holder. 8. The oscillating combustor of claim 1 , wherein the ionizer is configured to apply a time-varying first polarity charge to the fuel jet or flame; and wherein the second flame holder is configured to be held in substantial continuity with a voltage opposite in polarity to the first polarity. 9. The oscillating combustor of claim 1 , wherein the ionizer is configured to apply a charge to the fuel jet or flame supported by the fuel jet at a sufficiently high rate to cause the flame to carry a time-varying high voltage. 10. The oscillating combustor of claim 9 , wherein the high voltage has an absolute value of 1000 V or higher. 11. The oscillating combustor of claim 9 , wherein the ionizer is configured to cause the flame to carry a variable voltage having an absolute value of up to about 10 kilovolts or more. 12. The oscillating combustor of claim 1 , wherein the variable-charge ionizer is configured to cause the flame to oscillate between a position near the first flame holder and a position near the second flame holder. 13. The oscillating combustor of claim 12 , wherein the variable-current ionizer is configured to provide an electrical current to the flame or the fuel jet to hold the flame near the second flame holder. 14. The oscillating combustor of claim 12 , wherein the variable-current ionizer is configured to discontinue electrical current to the flame or fuel jet to hold the flame near the first flame holder. 15. The oscillating combustor of claim 1 , wherein the variable-current ionizer is configured to cause the flame front to oscillate between first and second positions corresponding to a rich mixture and a lean mixture, respectively. 16. The oscillating combustor of claim 15 , wherein the rich mixture includes a time-averaged oxidizer concentration near a rich flammability limit of the fuel. 17. The oscillating combustor of claim 15 , wherein the lean mixture includes a time-averaged oxidizer concentration near a lean flammability limit of the fuel. 18. The oscillating combustor of claim 1 , further comprising: a shield electrode operatively coupled to the switch; wherein the switch is configured to control when the shield electrode is allowed to electrically float and when the shield electrode is placed in continuity with ground or a voltage between ground and a voltage to which a charge-ejecting portion of the ionizer is driven. 19. The oscillating combustor of claim 1 , further comprising: a voltage multiplier operatively coupled to the ionizer. 20. The oscillating combustor of claim 1 , wherein the oscillating combustor is configured to combust a time-series of rich and lean combustion packets. 21. The oscillating combustor of claim 20 , wherein the rich combustion packets have about half the amount of oxygen required for stoichiometric combustion. 22. The oscillating combustor of claim 20 , wherein the lean combustion packets have about 1.3 to 1.5 times the amount of oxygen required for stoichiometric combustion. 23. The oscillating combustor of claim 1 , wherein the variable current ionizer is configured to modulate charge to the fuel jet or flame at a frequency of between 0.5 and 15 Hertz.