The invention comprises an infrared source and method of use thereof comprising the steps of: (1) providing a solid state source, comprising: a film of oxide particles comprising an average particle size of less than ten micrometers, gaps between the oxide particles comprising an average gap width of less than ten micrometers, and a heating element embedded in the solid state source; (2) applying a pulsed current to the heating element to heat the heating element; and (3) heating the film of oxide particles to at least seven hundred degrees using thermal conduction from the heating element resultant in the film of oxide particles emitting infrared light in a range of 1.1 to 20 micrometers, where the infrared source operates continuously with heating and cooling of the oxide particles through a differential of at least 200° C. occurs at least five and less than thirty times per second.