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Sensitive detectors

Powder diffraction studies with neutrons are perfonned both at nuclear reactors and at spallation sources. In both cases a cylindrical sample is observed by multiple detectors or, in some cases, by a curved, position-sensitive detector. In a powder diffractometer at a reactor, collimators and detectors at many different 20 angles are scaimed over small angular ranges to fill in the pattern. At a spallation source, pulses of neutrons of different wavelengdis strike the sample at different times and detectors at different angles see the entire powder pattern, also at different times. These slightly displaced patterns are then time focused , either by electronic hardware or by software in the subsequent data analysis. [Pg.1382]

The amplified signal is passed to a double-balanced mixer configured as a phase-sensitive detector where the two inputs are the NMR signal (cOq) and the frequency of the synthesizer (03. gf) with the output proportional to cos(coq - co gj.)t + 0) + cos((coq + + 9). The sum frequency is much larger than the total bandwidth of the... [Pg.1475]

Detection of cantilever displacement is another important issue in force microscope design. The first AFM instrument used an STM to monitor the movement of the cantilever—an extremely sensitive method. STM detection suffers from the disadvantage, however, that tip or cantilever contamination can affect the instrument s sensitivity, and that the topography of the cantilever may be incorporated into the data. The most coimnon methods in use today are optical, and are based either on the deflection of a laser beam [80], which has been bounced off the rear of the cantilever onto a position-sensitive detector (figme B 1.19.18), or on an interferometric principle [81]. [Pg.1693]

A detector is needed to sense when the separated substances are emerging from the end of the column. A mass spectrometer (MS) makes a very good, sensitive detector and can be coupled to either GC or LC to give the combined techniques of GC/MS or LC/MS, respectively. [Pg.414]

Figure 9.25 (a) A Doppler-limited line, (b) The detection. V, potential psd, phase-sensitive detector... [Pg.370]

It is possible to use halogen-sensitive detectors in glc analysis of active hydrogen compounds by sdylating them with a halogenated sdylating agent, eg, CMDMS (9). [Pg.71]

Position Sensitive Detectors. By replacing the scintillation detector in a conventional powder diffractometer with a Position Sensitive Detector (PSD), it is possible to speed data collection. For each x-ray photon received a PSD records the angle at which it was detected. Typically, a conventional scintillation detector records x-ray photons in a range of a few hundredths of a degree at a time. A PSD can measure many degrees (in 20) of a powder pattern simultaneously. Thus, for small samples, data collection, which could require hours with a conventional detector, could take minutes or even seconds with a PSD. [Pg.381]

The most common detectors in HPLC are ultraviolet, fluorescence, electrochemical detector and diffractometer. However, despite all improvements of these techniques it seems necessary to have a more selectivity and sensitivity detector for the purposes of the medical analysis. It should be therefore improvements to couple analytical techniques like infrared IR, MS, nuclear magnetic resonance (NMR), inductively coupled plasma-MS (ICP-MS) or biospecific detectors to the LC-system and many efforts have been made in this field. [Pg.342]

XRD is an excellenr, nondestructive method for identifying phases and characterizing the structural properties of thin films and multilayers. It is inexpensive and easy to implement. The future will see more use of GIXD and depth dependent measurements, since these provide important information and can be carried out on lab-based equipment (rather than requiring synchrotron radiation). Position sensitive detectors will continue to replace counters and photographic film. [Pg.212]

ICPMS can be considered a high-sensitivity extension of mass spectrometry, as well as an increased-sensitivity detector replacing optical ICP (ICP-OES) analysis. In fret, both viewpoints are accurate, and the wide application of ICPMS analysis... [Pg.624]

For IBSCA analysis, standard HV or, better, UHV-equipment with turbomolecular pump and a residual gas pressure of less than 10 Pa is necessary. As is apparent from Fig. 4.46, the optical detection system, which consists of transfer optics, a spectrometer, and a lateral-sensitive detector, is often combined with a quadrupole mass spectrometer for analysis of secondary sputtered particles (ions or post-ionized neutrals). [Pg.242]

AMD 1 Components of automatic fire detection systems. Part 5 Heat sensitive detectors point detectors containing a static element (AMD 5762) dated 31 August 1988. Superseded BS 3116 Part 1 1970... [Pg.588]

Colorless substances absorb at wavelengths shorter than those of the visible range (the UV range normally amenable to analysis X = 400...200 nm). Such compounds can be detected by the use of UV-sensitive detectors (photomultipliers. Sec. 2.2.3.1). Substances that absorb in the UV range and are stimulated to fluorescence or phosphorescence (luminescence) can be detected visually if they are irradiated with UV light. [Pg.10]

Electrodriven separation techniques are destined to be included in many future multidimensional systems, as CE is increasingly accepted in the analytical laboratory. The combination of LC and CE should become easier as vendors work towards providing enhanced microscale pumps, injectors, and detectors (18). Detection is often a problem in capillary techniques due to the short path length that is inherent in the capillary. The work by Jorgenson s group mainly involved fluorescence detection to overcome this limit in the sensitivity of detection, although UV-VIS would be less restrictive in the types of analytes detected. Increasingly sensitive detectors of many types will make the use of all kinds of capillary electrophoretic techniques more popular. [Pg.212]

Another application of the Seebeck effect is to be found ill detectors of small quantities of heat radiation. These sensitive detectors comprise a thermopile, a pile of thermocoup)les (small pieces of two different metals connected in V form and put into series). Half of the junctions of the thermopile are shielded within the detector, whereas the other half are exposed to... [Pg.1039]

Thermal conductivity detector. The most important of the bulk physical property detectors is the thermal conductivity detector (TCD) which is a universal, non-destructive, concentration-sensitive detector. The TCD was one of the earliest routine detectors and thermal conductivity cells or katharometers are still widely used in gas chromatography. These detectors employ a heated metal filament or a thermistor (a semiconductor of fused metal oxides) to sense changes in the thermal conductivity of the carrier gas stream. Helium and hydrogen are the best carrier gases to use in conjunction with this type of detector since their thermal conductivities are much higher than any other gases on safety grounds helium is preferred because of its inertness. [Pg.241]

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See also in sourсe #XX -- [ Pg.10 ]



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Bulk property detectors limiting sensitivity

Bulk property detectors sensitivity

Carrier gas and detector sensitivity

Concentration, sensitivity sensitive detector

Concentration-sensitive detectors

Coupling with Molar-Mass-Sensitive Detectors

Detector flow sensitivity

Detector high sensitivity

Detector molecular weight-sensitive

Detector pressure sensitivity

Detector sensitivity

Detector temperature sensitivity

Detector, atomic spectrometer concentration sensitivity

Detector, atomic spectrometer mass sensitivity

Detector, atomic spectrometer sensitivity

Detector, characteristics sensitivity

Detectors selective sensitization

Detectors sensitivity enhancements

Detectors, HPLC sensitivity

Diode array detector sensitivity

Electrochemical detectors mass sensitivity

Electrochemical detectors sensitivity

Electron-capture detector chemical-sensitized

Electron-capture detector sensitivity

Flame-ionization detector sensitivity

Flow injection analysis sensitive detectors

Flow-sensitive detectors

Increased Detector Sensitivity with TUNE Circuit

Limits to Detectors Sensitivity

Linear position sensitive detector

Mass flow sensitive detectors

Mass-sensitive detectors

Molar mass sensitive detector

Molecular sensitive detectors

Molecule-sensitive detector

One-dimensional position-sensitive detector

Oxygen sensitive detectors

Phase-sensitive detector

Photodiode array detectors sensitivity

Position sensitive detector curved

Position sensitive detectors

Position sensitive solid-state detectors

Position-Sensitive Semiconductor Detectors

Position-sensitive area detectors

Position-sensitive photo-detector

Quantum detectors sensitivity

Sensitivity GC detectors

Sensitivity LC detectors

Sensitivity atomic emission detector

Sensitivity of detectors

Sensitivity, concentration detector

Silicon detector, position sensitive

Specifications detector flow sensitivity

Specifications detector pressure sensitivity

Specifications detector sensitivity

Specifications detector temperature sensitivity

Thermal conductivity detector sensitivity

Two-dimensional position-sensitive detector

Voltammetric detectors sensitivity

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