Abstract: Apparatus for applying electromagnetic energy at a frequency or frequencies in a frequency range of 1 MHz-100 GHz to an object in a cavity. The apparatus includes a source of electromagnetic energy and a processor configured to acquire information indicative of a spatial location of the object in the cavity, identify a first set of frequency and phase values, the first set being associated with a first field pattern having a first high-intensity region corresponding to a first area of the spatial location of the object, identify a second set of frequency and phase values, the second set being associated with a second field pattern having a second high-intensity region corresponding to a second area of the spatial location of the object, wherein the first area is different from the second area and control the source, in accordance with the first and second sets of frequency and phase values, to apply electromagnetic energy to the first and second areas.

Abstract: An apparatus is provided for applying electromagnetic energy at a frequency or frequencies in a frequency range of 1 MHz to 100 GHz to an object in a cavity via at least one radiating element. At least one processor is configured to receive a target energy distribution, select, based on the target energy distribution, a plurality of sets of values of field-affecting parameters controllable by the apparatus. The parameters include at least one of frequency, phase, and amplitude. The apparatus provides for the control of a source coupled to the at least one radiating element to excite a respective field pattern for each selected set of values.

Abstract: An antenna assembly including a support and antenna tiles disposed in the support. The antenna tiles form an external surface corresponding substantially in shape to lateral faces of a frustum. The frustum includes a central axis with the antenna tiles disposed around the central axis of the frustum and sloping away therefrom. Each antenna tile includes opposite ends, with one end narrower than the other end. A planar array of antenna elements is disposed on each antenna tile in which the antenna elements of each array are configured to operate as a phased array. A control system connects to the planar arrays of antenna elements in which the control system is configured to selectively activate and deactivate each of the planar arrays.

Abstract: An antenna assembly including a support and antenna tiles disposed in the support. The antenna tiles form an external surface corresponding substantially in shape to lateral faces of a frustum. The frustum includes a central axis with the antenna tiles disposed around the central axis of the frustum and sloping away therefrom. Each antenna tile includes opposite ends, with one end narrower than the other end. A planar array of antenna elements is disposed on each antenna tile in which the antenna elements of each array are configured to operate as a phased array. A control system connects to the planar arrays of antenna elements in which the control system is configured to selectively activate and deactivate each of the planar arrays.

Abstract: An apparatus is provided for applying electromagnetic energy at a frequency or frequencies in a frequency range of 1 MHz to 100 GHz to an object in a cavity via at least one radiating element. At least one processor is configured to receive a target energy distribution, select, based on the target energy distribution, a plurality of sets of values of field-affecting parameters controllable by the apparatus, the parameters comprising at least one of frequency, phase, and amplitude, and control a source coupled to the at least one radiating element to excite a respective field pattern for each selected set of values.

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: An apparatus for exciting a rotating field pattern in a cavity containing an object, the apparatus comprising a radiating element configured to excite an electromagnetic (EM) field pattern in the cavity, wherein the EM field pattern is excited with EM energy at a frequency in the radio-frequency (RF) range, a field rotating element configured to rotate the EM field pattern, wherein the field rotating element has an anisotropy, the anisotropy selected from magnetic anisotropy, electric anisotropy, and a combination of magnetic and electric anisotropies, and a controller configured to determine the EM field pattern according to value indicative of energy absorbable by the object and to control the anisotropy of the field rotating element in order to rotate the EM field pattern.

Abstract: A choke is disclosed. The choke is configured to attenuate propagation of an electromagnetic (EM) wave between a cavity and a door adjacent to an opening of the cavity. The choke includes one or more choke components having a mechanical wave attenuating structure.

Abstract: An apparatus for exciting a rotating field pattern in a cavity containing an object, the apparatus comprising a radiating element configured to excite an electromagnetic (EM) field pattern in the cavity, wherein the EM field pattern is excited with EM energy at a frequency in the radio-frequency (RF) range, a field rotating element configured to rotate the EM field pattern, wherein the field rotating element has an anisotropy, the anisotropy selected from magnetic anisotropy, electric anisotropy, and a combination of magnetic and electric anisotropies, and a controller configured to determine the EM field pattern according to value indicative of energy absorbable by the object and to control the anisotropy of the field rotating element in order to rotate the EM field pattern.

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.