Abstract: A voltage detector comprising: a first voltage reference generator for generating a first voltage reference signal; a second voltage reference generator for generating a second voltage reference signal, wherein the second voltage reference signal is higher than the first voltage reference signal; a trigger, powered by an input signal to the voltage detector, and having an input for receiving either the first or second voltage reference signal and an output for generating a detection signal; and a switch for selectively, connecting the input of the trigger to the first or second voltage reference signal, wherein the switch is operative to connect the input of the trigger to the first voltage reference signal when the detection signal output by the voltage detector is low and is operative to connect the input of the trigger to the second voltage reference signal when the detection signal output by the voltage detector is high, and a voltage detector system for monitoring an input signal and outputting a detecti

Abstract: A probiotic organism which is capable of proliferation in iron-rich media, an environment which is generally unfavourable to probiotic organisms, is described.

Abstract: A sampling apparatus can have an elongate tube and a liquid partitioning unit, first port can receive an incoming flow of test liquid and a second port may be coupled to the elongate tube. The liquid partitioning unit can combine the flow of test liquid with a plurality of partitioning elements to define a plurality of discrete liquid samples for movement along and storage in the elongate tube.

Abstract: A electromechanical relay device (100) comprising a source electrode (102), a beam (104) mounted on the source electrode at a first end and electrically coupled to the source electrode; a first drain electrode (112) located adjacent a second end of the beam, wherein a first contact (110) on the beam is arranged to be separated from a second contact (112) on the first drain electrode when the relay device is in a first condition; a first gate electrode (106 arranged to cause the beam to deflect, to electrically couple the first contact and the second contact such that the device is in a second condition; and wherein the first and second contacts are each coated with a layer of nanocrystalline graphite.

Abstract: Provided herein is a radiation powered device comprising a semiconductor comprising a diamond material.

Abstract: Disclosed are novel analogs of cytisine, a process for their preparation, pharmaceutical compositions containing them, and their use in the prevention of or treatment of CNS disorders including addictive disorders.

Abstract: A voltage detector comprising, a first voltage reference generator for generating a first voltage reference signal; a second voltage reference generator for generating a second voltage reference signal, wherein the second voltage reference signal is higher than the first voltage reference signal; a trigger, powered by an input signal to the voltage detector, and having an input for receiving either the first or second voltage reference signal and an output for generating a detection signal; and a switch for selectively connecting the input of the trigger to the first or second voltage reference signal, wherein the switch is operative to connect the input of the trigger to the first voltage reference signal when the detection signal output by the voltage detector is low and is operative to connect the input of the trigger to the second voltage reference signal when the detection signal output by the voltage detector is high, and a voltage detector system for monitoring an input signal and outputting a detectio

Abstract: A voltage detector (200) for monitoring an input signal and outputting a detection signal at an output when a voltage of the input signal meets a first threshold having: an input configured for receiving the input signal; a voltage reference circuit for receiving an input voltage and producing a reference voltage having a maximum value independent of the input voltage; and a trigger configured to compare the input signal and the reference voltage and to output a detection signal to the output when the voltage of the input signal reaches the first threshold. The voltage reference circuit comprises a reset input connected to either the input or the output and is configured to reduce the reference voltage when a predetermined reset signal is received.

Abstract: There is provided an integrated-optic transmitter for transmitting light pulses to a further optical apparatus for generating a quantum cryptographic key according to at least one quantum cryptography technique. There is also provided an integrated-optic receiver for generating a quantum cryptographic key from light pulses received from a further optical apparatus. The transmitter apparatus splits incoming light into two paths to temporally separate the split light pulses and controls the output intensity of each split pulse as well as the phase of at least one of the split pulses. The receiver apparatus receives first and second light pulses and controls the output intensity of each said pulse between a first and a second optical detector. The light input into the second detector passes through an integrated element that controls the amount of light output into two paths that recombine before at least a portion is output to the second detector.

Abstract: Aspects of the disclosure provide a method and system for power amplifier characterization and digital predistortion. The method includes receiving a test signal including K samples with a sampling rate fS, generating a synthetic test signal including the test signal and a sequence of (N?1) delayed versions of the test signal, generating an under-sampled signal including M samples by sampling, at a sampling rate fS/N, an output signal of a device-under-test (DUT) with the synthetic test signal as an input of the DUT, the M samples of the under-sampled signal including N segments each including K/N samples, and generating a reconstructed signal including the M samples of the under-sampled signal.

Abstract: Aspects of the disclosure provide a method and system for power amplifier characterization and digital predistortion. The method includes receiving a test signal including K samples with a sampling rate fS, generating a synthetic test signal including the test signal and a sequence of (N?1) delayed versions of the test signal, generating an under-sampled signal including M samples by sampling, at a sampling rate fS/N, an output signal of a device-under-test (DUT) with the synthetic test signal as an input of the DUT, the M samples of the under-sampled signal including N segments each including K/N samples, and generating a reconstructed signal including the M samples of the under-sampled signal.

Abstract: A radiation detection device (10) comprising a data processor (14) arranged to be communicatively coupled to a position sensor (16) mounted on an unmanned vehicle and a solid state radiation sensor (18) mounted on the unmanned vehicle. The data processor is configured to receive position data from the position sensor, receive radiation data from the solid state radiation sensor and periodically associate the position data with radiation data to form combined data.

Abstract: Aspects of the disclosure provide a method and system for power amplifier characterization and digital predistortion. The method includes receiving a test signal including K samples with a sampling rate fS, generating a synthetic test signal including the test signal and a sequence of (N?1) delayed versions of the test signal, generating an under-sampled signal including M samples by sampling, at a sampling rate fS/N, an output signal of a device-under-test (DUT) with the synthetic test signal as an input of the DUT, the M samples of the under-sampled signal including N segments each including K/N samples, and generating a reconstructed signal including the M samples of the under-sampled signal.

Abstract: Aspects of the disclosure provide a method and system for power amplifier characterization and digital predistortion. The method includes receiving a test signal including K samples with a sampling rate fS, generating a synthetic test signal including the test signal and a sequence of (N?1) delayed versions of the test signal, generating an undersampled signal including M samples by sampling, at a sampling rate fS/N, an output signal of a device-under-test (DUT) with the synthetic test signal as an input of the DUT, the M samples of the under-sampled signal including N segments each including K/N samples, and generating a reconstructed signal including the M samples of the under-sampled signal.

Abstract: Aspects of the disclosure provide a method and system for power amplifier characterization and digital predistortion. The method includes receiving a test signal including K samples with a sampling rate fS, generating a synthetic test signal including the test signal and a sequence of (N?1) delayed versions of the test signal, generating an under-sampled signal including M samples by sampling, at a sampling rate fS/N, an output signal of a device-under-test (DUT) with the synthetic test signal as an input of the DUT, the M samples of the under-sampled signal including N segments each including K/N samples, and generating a reconstructed signal including the M samples of the under-sampled signal.

Abstract: A probiotic organism which is capable of proliferation in iron-rich media, an environment which is generally unfavorable to probiotic organisms, is described.

Abstract: There is presented a spectroscopic apparatus and method wherein an input light source that inputs pump light to a photon pair source. The photon pair source converts pump photons into signal and idler photon pairs. The photon pair source is, in some of examples described herein, tuneable so that the wavelength of the signal and idler photons can be changed by application of a tuning means. At least one of the signal and idler photons is made incident upon a medium under test. A heralding detection apparatus is used to detect any signal and idler photons output from the spectroscopy apparatus, wherein at least one of the photons of the pair has interacted with or been operated upon by the medium under test.

Abstract: There is presented an optical apparatus comprising first and second photon pair sources configured to convert at least one pump light photon into a first and second correlated signal and idler photon pairs. In one example, the apparatus is configured to use one of the signal and idler photons from the first correlated photon pair for controlling the conversion of the pump light photon in the second photon pair source. The apparatus may configured such that, at least one of the signal and idler photons from the first correlated photon pair is output from the first photon pair source onto an optical path wherein at least one of the signal and idler photons from the second correlated photon pair is output from the second photon pair source onto the optical path. A method is also provided for outputting one or more photons using the optical apparatus.

Abstract: A water-soluble compound of the formula (I): wherein R9 and R10 are suitably hydrophilic substituents, which may be used to selectively bind to a target saccharide such as glucose and which exhibits a detectable spectroscopic response to such binding, thus enabling its use in the detection and correction of blood glucose concentrations in vivo.

Abstract: An optical device includes a first sub-assembly having an input lens for collimating illuminating light and having an optical axis. The first sub-assembly also has an output lens for focusing collimated light received from a sample, the output lens having an optical axis which is offset and substantially parallel with the optical axis of the input lens, and further includes a first support piece which houses and supports the input lens and the output lens. The optical device also includes a second sub-assembly having an input filter for filtering the collimated illuminating light, an output filter for filtering the collimated light received from the sample, and a second support piece which houses and supports the input filter and the output filter. The first and second support pieces are joined together by a liquid-tight joint.