Abstract: Some aspects of the invention may be directed to an apparatus and method for applying RF energy to containers. The containers (e.g., pots, tanks, vats, kettles, reactors, etc.) may contain an object to be heated or processed by EM energy. The object may be in the liquid phase, gas phase, solid phase or any combination of phases thereof. The apparatus may comprise an outer housing. Optionally the outer housing may be substantially opaque to RF energy. The apparatus may further comprise an inner housing disposed at least partially within the outer housing, wherein at least a portion of the inner housing is configured to transmit RF energy. The apparatus may include at least one radiating element configured to apply RF energy to an energy application zone within the inner housing. In some embodiments the at least one radiating element is located external to the inner housing, optionally between the inner housing and the outer housing.

Abstract: Apparatuses and methods are disclosed for applying radio frequency (RF) energy to an object in an energy application zone. At least one processor may be configured to cause RF energy to be applied at a plurality of electromagnetic field patterns to the object in the energy application zone. The processor may be further configured to determine an amount of power dissipated in the energy application zone, for each of the plurality of field patterns. The processor may also be configured to determine a spatial distribution of energy absorption characteristics across at least a portion of the energy application zone based on the amounts of power dissipated when the plurality of field patterns are applied to the energy application zone.

Abstract: Apparatuses and methods are disclosed for applying radio frequency (RF) energy from a source of electromagnetic energy to an object in an energy application zone. At least one processor may be configured to acquire information indicative of electromagnetic energy loss associated with at least a portion of the energy application zone. The processor may be further configured to determine a weight to be applied to each of a plurality of electromagnetic field patterns each having a known electromagnetic field intensity distribution and cause the source to supply each of the plurality of electromagnetic field patterns to the energy application zone at the determined weights.

Abstract: Apparatuses and methods for applying EM energy to a load. The apparatuses and methods may include at least one processor configured to receive information indicative of energy dissipated by the load for each of a plurality of modulation space elements. The processor may also be configured to associate each of the plurality of modulation space elements with a corresponding time duration of power application, based on the received information. The processor may be further configured to regulate energy applied to the load such that for each of the plurality of modulation space elements, power is applied to the load at the corresponding time duration of power application.

Abstract: Apparatuses and methods are disclosed for applying electromagnetic energy in a radio frequency (RF) range to an object in an energy application zone via at least one radiating element. At least one processor may be configured to determine locations of a first region and a second region in the energy application zone. In addition, the processor may be configured to regulate a source in order to apply a first predetermined amount of RF energy to the first region in the energy application zone and a second predetermined amount of RF energy to the second region in the energy application zone. The first predetermined amount of energy may be different from the second predetermined amount of energy.

Abstract: Antenna placement in degenerate modal cavities of an electromagnetic energy transfer system, an apparatus and method for applying electromagnetic energy to an object are disclosed in a degenerate energy application zone via a source of electromagnetic energy. The apparatus may include at least one processor configured to regulate the source to apply electromagnetic energy at a predetermined frequency that excites a plurality of resonant modes in the degenerate energy application zone. The plurality of resonant modes are of the same transverse type.

Abstract: An apparatus for applying EM energy to a load may include at least one processor configured to receive information indicative of dissipated energy for each of a plurality of modulation space elements and group a number of the plurality of modulations space elements into at least two subsets based on the information received indicative of dissipated energy. The processor may also be configured to associate a power delivery protocol with each of the at least two subsets wherein the power delivery protocol differs between subsets and regulate energy applied to the load in accordance with each power delivery protocol.

Abstract: Apparatuses and methods may include a source of electromagnetic energy configured to deliver electromagnetic energy to an energy application zone and to apply electromagnetic energy to an object. The energy application zone may be divided into subzones by at least one partition comprising an electromagnetic field disruptive material. The source may be configured to deliver electromagnetic energy to multiple subzones by supplying electric fields transverse to the at least one partition.

Abstract: The current invention provides a method for improving the sensitivity of bolometric detection by providing improved electromagnetic power/energy absorption. In addition to its role in significantly improving the performance of conventional conducting-film bolometric detection elements, the method suggests application of plasmon resonance absorption for efficient thermal detection and imaging of far-field radiation using the Surface Plasmon Resonance (SPR) and the herein introduced Cavity Plasmone Resonance (CPR) phenomena. The latter offers detection characteristics, including good frequency sensitivity, intrinsic spatial (angular) selectivity without focusing lenses, wide tunability over both infrared and visible light domains, high responsivity and miniaturization capabilities. As compared to SPR, the CPR-type devices offer an increased flexibility over wide ranges of wavelengths, bandwidths, and device dimensions.

Abstract: The current invention provides a devices methods and systems for efficient biosensing using the Surface Plasmon Resonance (SPR) and Cavity Plasmon Resonance (CPR) phenomena. The miniature biosensor comprises a stratified structure having a channel for analyte form between a substrate and thin metallic absorber layer in which plasmon are resonantly excited. Presence of analyte in the channel, changes the resonance conditions, thus changing the energy absorbed by the biosensor. Bolometric signal from the absorber; layer or detection of the radiation not absorbed by the biosensor is used to detect, measure the concentration of, or monitor the analyte.