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Large-range thermometer

Among nonmetallic resistance thermometers, an important class is that of thermistors, or temperature-sensitive semiconductkig ceramics (5). The variety of available sizes, shapes, and performance characteristics is very large. One manufacturer Hsts ki the catalog a choice of characteristics ranging from 100 Q at 25°C to 1 M Q at 25°C. [Pg.401]

If the temperature range of interest is large, say 1 to 400 K, then diode thermometers are recommended. Diodes have other advantages compared to resistance thermometers. By contrast, diode thermometers are veiy much smaller and faster. Bv selection of diodes all from the same melt, they may be made interchangeable. That is, one diode has the same cahbration cui ve as another, which is not always the case with either semiconductor or metallic-resistance thermometers. It is well known, however, that diode thermometers may rectify an ac field, and thus may impose a dc noise on the diode output. Adequate shielding is required. [Pg.1136]

The reactor has facilitated a diverse range of synthetic reactions at temperatures up to 200 °C and 1.4 Pa. The temperature measurements taken at the microwave zone exit indicate that the maximum temperature is attained, but they give insufficient information about thermal gradients within the coil. Accurate kinetic data for studied reactions are thus difficult to obtain. This problem has recently been avoided by using fiber optic thermometer. The advantage of continuous-flow reactor is the possibility to process large amounts of starting material in a small volume reactor (50 mL, flow rate 1 L hr1). A similar reactor, but of smaller volume (10 mL), has been described by Chen et al. [117]. [Pg.371]

Above the minimum, the mean slope of C(T) is about 0.6pF/mK up to room temperature. Such commercial capacitor would be a thermometer with a very large operating range, a property not very common in other thermometers. [Pg.228]

In a cryogenic experiment, one or several detectors are used for a definite goal for which they have been optimized. For example, in CUORE experiment described in Section 16.5, the sensors are the Ge thermistors, i.e. thermometers used in a small temperature range (around 10 mK). One detector is a bolometer made up of an absorber and a Ge sensor. The experiment is the array of 1000 bolometers arranged in anticoincidence circuits for the detection of the neutrinoless double-beta decay. Note that the sensors, if calibrated, could be used, as well, as very low-temperature thermometers. Also the array of bolometers can be considered a single large detector and used for different purposes as the detection of solar axions or dark matter. [Pg.323]

As the difference between refractive indices of NG and EGDN is fairly large, Rinkenbach decided to apply this difference to analysis of EGDN—NG mixtures. He used a precision Leitz xeftactometer, equipped with a water jacket and calibrated thermometer. Indices were derd over a wide range of temps for each substance previously... [Pg.141]

Beckmann thermometer. A specific form of mercury thermometer that because of its large bulb has greater sensitivity but smaller range. It is used to measure small changes very accurately. [Pg.130]

Figure 5. Gallium melting curves of large cells obtained with standard platinum-resistance thermometers. Scale on left is for the top curve, resistance bridge values ranging from 28581000 to 28585000 are for the middle curve the remaining scale on the right is for the bottom curve. Figure 5. Gallium melting curves of large cells obtained with standard platinum-resistance thermometers. Scale on left is for the top curve, resistance bridge values ranging from 28581000 to 28585000 are for the middle curve the remaining scale on the right is for the bottom curve.
Since temperature measurements are required over such a wide range and diversity of situations, a large number of different types of thermometers with varying levels of accuracy and convenience have been developed over the years. Those most frequently used are based on the expansion of a gas, liquid or solid on changes in electrical resistance on the thermoelectric effect on changes in the thermal radiation of a system on changes in the thermal (Johnson) noise of electrical resistors on changes... [Pg.292]

A bolometer is a type of resistance thermometer constructed of strips of metals, such as platinum or nickel, or of a semiconductor. Semiconductor bolometers are often called thermistors. These materials exhibit a relatively large change in resistance as a function of temperature, The responsive element is kept small and blackened to absorb radiant heat. Bolometers are not so extensively used as other infrared transducers for the mid-infrared region, Flowever, a germanium bolometer. operated at 1..3 K, is nearly an ideal transducer for radiation in the. 5 to 400 cm (2000 to 2.3 pm) range. [Pg.201]

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See also in sourсe #XX -- [ Pg.234 ]



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