Abstract: A sensor system includes a source of input radiation having a frequency range between about 30 GHz and 3 THz, a whispering gallery mode resonator module coupled to the source for receiving the input radiation, and a detector coupled to the whispering gallery mode resonator module. The whispering gallery mode resonator module is configured to support at least one whispering gallery mode for the input radiation, and output a transmission response having a resonance characteristic related to the at least one whispering gallery mode. The detector detects the transmission response.

Abstract: System and method for blind echo cancellation in a received terahertz signal in a pulsed terahertz system for imaging or spectroscopy. Blind signal processing methods estimate the impulse response of the reflection mechanism and do not require a reference measurement to be taken. The reference signal may be recovered using a successive approach wherein the reference is first estimated using cross-correlation with the received signal and the received signal is represented as a function of the reference signal. For each successive echo, the calculated echo may be subtracted from the received signal and then the estimate of the reference signal is refined. Using an analytical approach, the parameters of a transfer function modeling the reflection mechanism may be estimated by optimizing a cost function.

Abstract: A system, method and an apparatus for terahertz (THz) imaging based on compressed sensing using a unified sensing mask are provided herein. The system may include a THz radiation transmitter, a window, a unified mask, a THz radiation focusing lens, a THz radiation detector and a processor to generate an image using compressed sensing. The unified mask includes a series of individual masks for filtering radiation directed at the individual masks. Each of the individual masks defines a binary two-dimensional matrix of cells that are either a radiation blocking cell or a radiation passing cell. The unified mask has a first length in a first direction. The window has a terahertz radiation blocking border that defines a terahertz radiation passing opening.

Abstract: Apparatus for carrying a plurality of photoconductive antennas is configured to facilitate the independent application of a voltage bias to each of the photoconductive antennas. The apparatus includes a carrier device, which comprises a support member configured for supporting a substrate containing a plurality of photoconductive integrated circuits. The support member has a side edge and a central portion having a window therein shaped for exposing the plurality of photoconductive integrated circuits to an incident optical beam. At least three contact plates are positioned on the central portion of the support member adjacent the window, and are configured to be electrically connected to an electrode of one of the photoconductive integrated circuits and to an electrode of another one of the photoconductive integrated circuits. At least two pairs of input terminals are located on the support member adjacent the side edge thereof, and are spaced from each other.