An upconversion system, including: a glow discharge device (GDD) configured to detect signal source radiation, wherein the signal source radiation is at least one of millimeter wave (MMW) radiation and Terahertz (THz) radiation; and a photodetector configured to measure intensity changes in visible light emitted by said GDD as a result of absorption of the signal source radiation. The system optionally includes a processor operatively coupled to the photodetector. The processor is configured to analyze imagery captured by the photodetector, and to compute at least one parameter of the signal source radiation based on the imagery.

The invention proposes a mass spectrometer comprising two ion mobility analyzers in tandem arrangement, of which at least one is a trapped ion mobility spectrometer (TIMS), and an ion gate which is located between the two ion mobility analyzers, and use thereof wherein ions are selectively transferred between the two ion mobility analyzers by adjusting the transmission of the ion gate while ions are separated in time according to ion mobility in the first ion mobility analyzer.

Various configurations of muon drift tubes for use in muon tomography are described and involve aluminum end caps coupled to an aluminum tube, an electrode in each of the end caps, and an anode wire extending between the electrodes. A two-part electrically conductive, gas-sealed, connection is located between an aluminum end cap and the aluminum tube. Methods of making those configurations of muon drift tubes are also described.

A probe assembly is disclosed comprising an inlet for receiving an eluent from a chromatography device; an outlet for delivering the eluent to an ion source of a mass spectrometer; and an attachment device for attaching the outlet to the mass spectrometer. The outlet comprises an electrically conductive capillary and an electrically conductive member surrounding at least part of the electrically conductive capillary. The electrically conductive member is arranged to receive a voltage upon connection of the attachment device to the mass spectrometer and the electrically conductive member is arranged to provide an electrical connection from the electrically conductive member to the electrically conductive capillary.

Disclosed include a drift tube for particle detection, a detection system including one or more of the drift tubes, a method of producing a drift tube, and a detection method using a drift tube and/or a detection systems. The drift tube may include: a housing tube extending along a longitudinal axis and structured to include a first end, a second end, and an internal surface configured as a cathode, a first end cap and a second end cap hermetically engaged to and electrically isolated from the first end and the second end of the housing tube, respectively; a detection gas enclosed inside the housing tube and configured for undergo ionization by charged particles; and an anode wire traversing the housing tube along the longitudinal axis and being configured to detect the ionization that indicates a track of the charged particles inside the drift tube.

A borehole muon detector for muon radiography or geotomography is provided, the borehole muon detector including a substantially cylindrical housing, which defines a bore, a pair of end caps, each end cap sealing an end of the cylindrical housing and a plurality of sealed drift tubes which are longitudinally disposed in the bore of the housing to form a bundle of drift tubes, wherein each sealed drift tube comprises: a centrally located anode wire disposed on a longitudinal axis; an inner surface which is coated with a cathode coating, the cathode coating divided into a first cathode pad and a second cathode pad by a Vernier pattern; and a timer in electrical communication with the anode wire for measuring a drift time. A system and a method are also provided.

Exemplary metamaterial photocathodes enable detection of light from visible through long wave infrared wavelengths. Metamaterial stacks, comprising gold, silicon, and cesium-oxide, coupled to a semiconductor allow hot electrons to efficiently enter a vacuum. The hot electrons are multiplied in a multichannel plate and directly through another vacuum towards a phosphorus screen.

Exemplary metamaterial photocathodes enable detection of light from visible through long wave infrared wavelengths. Metamaterial stacks, comprising gold, silicon, and cesium-oxide, coupled to a semiconductor allow hot electrons to efficiently enter a vacuum. The hot electrons are multiplied in a multichannel plate and directly through another vacuum towards a phosphorus screen.

A drift tube construction includes a thin wall aluminum tube with a thin wire at its center attached to a terminal. The tube is plugged at both ends. The terminal is embedded at the center of the plug with material insulating it from Drift tube main body. The Drift tube assembly is sealed and filled with a gas mixture. A voltage is applied to the thin wire via the terminal. Current drift tubes employ plastic material to insulate the terminal from Drift tube main body and O-rings to provide a near hermetic seal.

A probe assembly is disclosed comprising an inlet for receiving an eluent from a chromatography device; an outlet for delivering the eluent to an ion source of a mass spectrometer; and an attachment device for attaching the outlet to the mass spectrometer. The outlet comprises an electrically conductive capillary and an electrically conductive member surrounding at least part of the electrically conductive capillary. The electrically conductive member is arranged to receive a voltage upon connection of the attachment device to the mass spectrometer and the electrically conductive member is arranged to provide an electrical connection from the electrically conductive member to the electrically conductive capillary.