Applying RF energy according to time variations in EM feedback

What is claimed is: 1. A method of processing an object in a cavity by applying radio frequency (RF) energy to the cavity, the method comprising applying RF energy to the cavity at a plurality of frequencies, and for each frequency: receiving a value indicative of a dielectric response of the cavity to RF energy applied; identifying a change over time in the value indicative of the dielectric response of the cavity to RF energy; and adjusting the RF energy application based on the identified change, wherein adjusting the RF energy application based on the identified change comprises applying more energy at a first plurality of frequencies than at a second plurality of frequencies, wherein the change over time identified for the first plurality of frequencies is higher than a first threshold and the change over time identified for the second plurality of frequencies is lower than the first threshold. 2. The method of claim 1 , wherein less energy is applied at frequencies for which the identified change over time is larger than a second threshold than at frequencies for which the identified change over time is between the first threshold and the second threshold, and the second threshold is higher than the first threshold. 3. The method of claim 1 , wherein less energy is applied at frequencies for which a non-continuous change over time is identified than at frequencies for which a change larger than the first threshold is identified. 4. The method of claim 1 , wherein adjusting the RF energy application at a certain frequency comprises adjusting a power level at which RF energy is applied at the certain frequency. 5. The method of claim 1 , wherein adjusting the RF energy application at a certain frequency comprises adjusting a duration for which RF energy is applied at the certain frequency. 6. A method of processing an object in a cavity by applying radio frequency (RF) energy to the cavity, the method comprising applying RF energy to the cavity at a plurality of frequencies, and for each frequency: receiving a value indicative of a dielectric response of the cavity to RF energy applied; identifying a change over time in the value indicative of the dielectric response of the cavity to RF energy; and adjusting the RF energy application based on the identified change, wherein identifying a change over time in one or more of the values for each frequency comprises: receiving a first set of values at a first time, each value of the first set of values corresponds to the dielectric response of the cavity at one of the frequencies at a first time, receiving a second set of values at a second time, each value of the second set of values corresponds to the dielectric response of the cavity at one of the frequencies at a second time, and comparing the first set of values with the second set of values. 7. The method of claim 1 , wherein the value indicative of a dielectric response of the cavity to RF energy is a network parameter. 8. The method of claim 1 , wherein the value indicative of a dielectric response of the cavity to RF energy is derivable from one or more network parameters. 9. An apparatus for processing an object in a cavity by applying radio frequency (RF) energy to the cavity, the apparatus comprising: a source of RF energy; an antenna configured to feed RF energy from the source to the cavity; and a controller configured to control the source to apply RF energy to the cavity via the antenna at a plurality of frequencies, wherein the controller is programmed to: identify for each of the plurality of frequencies a change over time in a value indicative of the dielectric response of the cavity to RF energy applied at the each of the plurality of frequencies; and adjust the RF energy application at the each of the plurality of frequencies based on the identified change, wherein the controller is programmed to adjust the RF energy application based on the identified change by applying more energy at a first plurality of frequencies than at a second plurality of frequencies, wherein the change over time identified for the first plurality of frequencies is higher than a first threshold and the change over time identified for the second plurality of frequencies is lower than the first threshold. 10. The apparatus of claim 9 , wherein the controller is programmed to adjust the RF energy application based on the identified change by applying less energy at frequencies for which the identified change over time is larger than a second threshold than at frequencies for which the identified change over time is between the first threshold and the second threshold, and the second threshold is higher than the first threshold. 11. The apparatus of claim 9 , wherein the controller is programmed to adjust the RF energy application based on the identified change by applying less energy at frequencies for which a non-continuous change over time is identified than at frequencies for which a change larger than the first threshold is identified. 12. The apparatus of claim 9 , wherein the controller is programmed to adjust the RF energy application by adjusting at least a power level at which RF energy is applied. 13. The apparatus of claim 9 , wherein the controller is programmed to adjust the RF energy application by adjusting at least a duration for which RF energy is applied. 14. The apparatus of claim 9 , wherein the value indicative of a dielectric response of the cavity to RF energy comprises a network parameter. 15. The apparatus of claim 9 , wherein the value indicative of a dielectric response of the cavity to RF energy is derivable from one or more network parameters.