Burner system with anti-flashback electrode

What is claimed is: 1. A premixed fuel burner, comprising: a body defining fuel and air mixing volume and a passage configured to allow flow of a premixed fuel jet; a charge source configured to apply a first polarity voltage or charge to a combustion fluid corresponding to the premixed fuel jet; and an anti-flashback electrode configured to carry a voltage at the first polarity and to electrically repel the first polarity charge in the combustion fluid. 2. The premixed fuel burner of claim 1 , further comprising: a voltage source operatively coupled to the charge source and the anti-flashback electrode and configured to output the first polarity voltage. 3. The premixed fuel burner of claim 2 , wherein the voltage source is configured to output a substantially constant first polarity voltage. 4. The premixed fuel burner of claim 3 , wherein the voltage source is configured to output a positive voltage. 5. The premixed fuel burner of claim 2 , wherein the voltage source is configured to output a time-varying first polarity voltage. 6. The premixed fuel burner of claim 1 , wherein the combustion fluid includes the premixed fuel jet; and wherein the charge source is configured to apply the first polarity voltage or charge to the mixed jet after the premixed fuel jet is output through the passage. 7. The premixed fuel burner of claim 1 , wherein the combustion fluid includes a flame supported by the premixed fuel jet; and wherein the charge source is configured to apply the first polarity voltage or charge to a flame supported by the premixed fuel jet. 8. The premixed fuel burner of claim 1 , wherein the combustion fluid includes the fuel; and wherein the charge source is configured to apply the first polarity voltage or charge to the fuel before the fuel enters the mixing volume. 9. The premixed fuel burner of claim 1 , wherein the combustion fluid includes the air; and wherein the charge source is configured to apply the first polarity voltage or charge to the air before the air enters the mixing volume. 10. The premixed fuel burner of claim 1 , wherein the combustion fluid includes the mixed fuel and air; and wherein the charge source is configured to apply the first polarity voltage or charge to the mixed fuel and air in the mixing volume. 11. The premixed fuel burner of claim 1 , wherein the anti-flashback electrode comprises a ring electrode disposed peripheral to the passage and outside the mixing volume. 12. The premixed fuel burner of claim 1 , wherein the anti-flashback electrode comprises a flame arrestor disposed as a grid across the passage. 13. The premixed fuel burner of claim 1 , wherein the anti-flashback electrode comprises at least a portion of the body defining the mixing volume including a region of a wall of the mixing volume peripheral to the passage. 14. The premixed fuel burner of claim 13 , wherein the wall of the mixing volume further comprises a dielectric layer disposed on a surface of the wall contacting the fuel and air in the mixing volume. 15. The premixed fuel burner of claim 14 , wherein the dielectric layer includes a ceramic. 16. The premixed fuel burner of claim 14 , wherein the dielectric layer includes a glass. 17. The premixed fuel burner of claim 14 , wherein the dielectric layer includes a thermoplastic polymer. 18. The premixed fuel burner of claim 14 , wherein the dielectric layer includes a thermoset polymer. 19. The premixed fuel burner of claim 1 , wherein the burner comprises a side-fired burner. 20. The premixed fuel burner of claim 1 , wherein the burner comprises an up-fired burner. 21. The premixed fuel burner of claim 1 , wherein the burner comprises a down-fired burner. 22. The premixed fuel burner of claim 1 , wherein the charge source comprises a charge-ejecting electrode; wherein the charge ejecting electrode and a counter electrode are configured as an ionic wind generator configured to accelerate the premixed fuel jet through the passage. 23. A method for reducing a possibility of flashback in a burner, comprising: premixing fuel and air in a mixing volume; outputting the premixed fuel and air as a premixed fuel stream; supporting a flame with the premixed fuel stream; applying a first voltage or charge at a first polarity to a combustion fluid corresponding to the fuel, the air, premixed fuel and air, the premixed fuel stream, or the flame; and applying a second voltage to an anti-flashback electrode disposed adjacent to the combustion fluid and arranged to repel the first voltage or charge from flowing upstream toward the premixed fuel and air. 24. The method for reducing a possibility of flashback in a burner of claim 23 , wherein the second voltage is the same polarity as the first voltage. 25. The method for reducing a possibility of flashback in a burner of claim 23 , wherein applying the first voltage or charge at the first polarity to a combustion fluid includes applying a voltage at the first polarity to a charge ejecting electrode to output charges at the first polarity. 26. The method for reducing a possibility of flashback in a burner of claim 23 , wherein applying the first voltage or charge at the first polarity to a combustion fluid includes applying a voltage at the first polarity to a non-charge ejecting electrode to an electrically conductive portion of the combustion fluid. 27. The method for reducing a possibility of flashback in a burner of claim 23 , wherein applying the first voltage or charge at the first polarity to a combustion fluid includes applying the first charge to the fuel before the fuel is mixed with the air. 28. The method for reducing a possibility of flashback in a burner of claim 23 , wherein applying the first voltage or charge at the first polarity to a combustion fluid includes applying the first voltage or charge to the air before the fuel is mixed with the air. 29. The method for reducing a possibility of flashback in a burner of claim 23 , wherein applying the first voltage or charge at the first polarity to a combustion fluid includes applying the first voltage or charge to the mixed fuel and air. 30. The method for reducing a possibility of flashback in a burner of claim 23 , wherein applying the first voltage or charge at the first polarity to a combustion fluid includes applying the first voltage or charge to the premixed fuel stream. 31. The method for reducing a possibility of flashback in a burner of claim 23 , wherein applying the first voltage or charge at the first polarity to a combustion fluid includes applying the first voltage to the flame. 32. The method for reducing a possibility of flashback in a burner of claim 23 , wherein applying a second voltage to an anti-flashback electrode disposed adjacent to the combustion fluid and arranged to repel the first voltage or charge from flowing upstream toward the premixed fuel and air includes applying the second voltage to a ring electrode disposed peripheral to the premixed fuel jet. 33. The method for reducing a possibility of flashback in a burner of claim 23 , wherein applying a second voltage to an anti-flashback electrode disposed adjacent to the combustion fluid and arranged to repel the first voltage or charge from flowing upstream toward the premixed fuel and air includes