High-Spatial Resolution Lidar Customer Case In Lidar, which is Laser Radar, spatial resolution is limited by the laser pulse width. This customer's laser pulse width is 3.5 ns. The total range interrogated by the Lidar system will be on the order of 250 meters. The customer needs to digitize the Lidar signal at 500 MS/s into 8 MegaSamples of memory. 8-bit digitizer resolution will be sufficient and they would also prefer to keep software programming at an absolute minimum. GaGe Case Solution Had the customer required higher resolution, say 12 or 14-bit, and sampling rates of 100 MS/s, then [...]

Ozone Profiling Customer Case Ozone profiling involves many averaging operations, which makes it very difficult to obtain the results immediately. There can be a delay of many days before a reliable reading is dispatched, which, by then, would be too late to take measures to protect the population and agriculture from the harmful effects. A customer has an Ozone profiling Lidar capable of downloading readings to a PC. The customer wanted to speed up the process of the averaging and analysis of the readings, also called data reduction, to near real-time speeds. This could be achieved if it was [...]

Radar Waveform Sampling & Processing Customer Case A customer involved in Naval Research needed to sample and process radar waveforms, to be used as reference in their lab. They were looking at implementing a digitizer solution. They needed 8-bit vertical resolution and a sampling speed of 500 MS/s. The customer also needed 2 GB of acquisition memory and wanted a portable solution. The customer also wanted to develop software in MATLAB and LabVIEW. GaGe Case Solution The customer was looking at the deepest acquisition memory available so they showed most interest in the CompuScope 8500. With its 8-bit vertical [...]

Polar Ice Thickness Measurements Customer Case The customer is an academic researcher in climate change. He wants to record the depth of the permafrost ice sheets in the arctic regions of Canada, Greenland and elsewhere. The change in world climate is directly related to the changes in the thickness of polar ice. Abrupt changes can be a predictor of climatic changes in the world. The measuring apparatus is an ice-penetrating radar mounted on an aircraft flying at 500-600 meters. The radar pulses at 20 kHz Pulse Repeat Frequency (PRF), captures the reflections of groups of 32-64 pulses. Each pulse [...]

Storm Watch / Tornado Radar Customer Case On average, the United States experiences 100,000 thunderstorms each year, causing about 1,000 tornadoes. The customer is trying to determine what meteorological conditions enable a large rotating thunderstorm (a "supercell") to drop a dangerous tornado-funnel. By determining what conditions must exist for the formation of an especially fierce tornado, researchers hope to develop accurate predictions of when and where such a tornado may touch down, giving the people time to evacuate. The customer wants to study tornadoes and other severe-storm features with an X-Band polarimetric Doppler radar. This mobile cloud-profiling radar is [...]

Atmospheric Remote Sensing Customer Case The customer requires a combination of hardware and software ("data system") to do live update sampling, processing, display, and archival of atmospheric measurements using an airborne Lidar system. This system, which continuously emits laser pulses, measures line-of-sight velocity and backscattered signals at a particular range from the aircraft. Real-time performance is necessary to observe the state of the atmosphere and to assess the performance of their instrument. Their requirement is similar to that of laser Doppler anemometry. The signal from the Lidar system will vary continuously with time and the signal waveform will be [...]

Nuclear Decay Experiment Customer Case A customer wants to measure nuclear decay rates of various radioactive isotopes. With each nuclear decay, the isotope under study simultaneously emits a beta particle, which is a high-speed electron, and a gamma particle, which is a high-frequency photon of light. Beta particles are detected with an efficiency of over 90% by a proportional gas counter that surrounds the radioactive isotope. Surrounding only one quarter of the isotope, a sodium iodide scintillator crystal detects gamma particles with about 25% efficiency. When it impinges on the scintillator crystal, a gamma creates a flash of visible [...]

Electron Spin Resonance (ESR) Experiment Customer Case A customer has an Electronic Spin Resonance (ESR) experiment. ESR is based on the fact that the magnetic moment of an electron precesses in an applied magnetic field, not unlike a child's top in a gravitational field, at a well-defined frequency called the Larmor frequency. Electromagnetic radiation at the Larmor frequency, when impinging on such an electron, will be preferentially absorbed. This principle is identical to that employed in Nuclear Magnetic Resonance (NMR), where the atomic nucleus precesses. In NMR, Larmor frequencies are of order 100 MHz. Because the electron is 2000 [...]

Nuclear Ion Testing Customer Case This customer is involved in nuclear ion testing. The pulse amplitudes of nuclear ions from a detector must be measured and sorted into a histogram, which will show the number of times a given amplitude was received. The customer wants a "multi-channel analyzer" capable of analyzing 4,000 to 8,000 "channels." In the customer's terminology, "channels" are actually histogram bins. The customer has pulses coming in at 20 - 30 ms minimum interval and needs to peak detect (calculate the maximum value of the pulse). Then, based on peak height, each is stored in a [...]

Alpha Particle Counting Customer Case A customer has to characterize a new design for a solid state alpha particle detector. The detector is essentially a silicon diode with a large area face. Because alpha particles, which are high-speed helium nuclei, are electrically charged, they interact strongly with matter and lose their energy quickly upon entering a solid. When an alpha particle decelerates within the depletion region of the diode, it creates electron-hole pairs. The carriers are collected by the diode's electrodes and create a measurable current pulse. The customer's experimental solid state detector has two implanted electrodes whose signals [...]