Averitt

Richard Averitt, Newton, MA US

Patent application number	Description	Published
20090096545	DYNAMIC FREQUENCY TUNING OF ELECTRIC AND MAGNETIC METAMATERIAL RESPONSE - A geometrically modifiable resonator is comprised of a resonator disposed on a substrate, and a means for geometrically modifying the resonator. The geometrically modifiable resonator can achieve active optical and/or electronic control of the frequency response in metamaterials and/or frequency selective surfaces, potentially with sub-picosecond response times. Additionally, the methods taught here can be applied to discrete geometrically modifiable circuit components such as inductors and capacitors. Principally, controlled conductivity regions, using either reversible photodoping or voltage induced depletion activation, are used to modify the geometries of circuit components, thus allowing frequency tuning of resonators without otherwise affecting the bulk substrate electrical properties. The concept is valid over any frequency range in which metamaterials are designed to operate.	04-16-2009

Patent application number	Description	Published
20090262766	ACTIVE TERAHERTZ METAMATERIAL DEVICES - Metamaterial structures are taught which provide for the modulation of terahertz frequency signals. Each element within an array of metamaterial (MM) elements comprises multiple loops and at least one gap. The MM elements may comprise resonators with conductive loops and insulated gaps, or the inverse in which insulated loops are present with conductive gaps; each providing useful transmissive control properties. The metamaterial elements are fabricated on a semiconducting substrate configured with a means of enhancing or depleting electrons from near the gaps of the MM elements. An on to off transmissivity ratio of about 0.5 is achieved with this approach. Embodiments are described in which the MM elements incorporated within a Quantum Cascade Laser (QCL) to provide surface emitting (SE) properties.	10-22-2009

Patent application number	Description	Published
20080309476	Method and system of transmitting a plurality of movement parameters of a vehicle via a two-wire interface - A system of transmitting a plurality of movement parameters of a vehicle. The system includes a supply terminal, a plurality of sensing elements, a modulation circuit, and a return terminal. The supply terminal is coupled to a power source to receive power. The sensing elements receive power from the supply terminal. Each of the sensing elements senses a movement characteristic of the vehicle, and generates movement signals indicative of the sensed movement characteristic. The modulation circuit is coupled to the sensing elements to modulate the movement signals based on the plurality of sensing elements. The return terminal is coupled to the modulation circuit to output the modulated movement signals	12-18-2008