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Light properties

Optical particle counters, 13 150 Optical properties, See also Light properties... [Pg.649]

Ciamician, G. and Silber, P. (1901) Chemical light properties. [Second announcement.]. Berichte Der Deutschen Chemischen GeseUscha.fi, 34, 2040-2046. [Pg.439]

Nakano, T., Kobayashi, H., Shinbo, K., Kato, K., Kaneko, F., Kawakami, T., and Akamatsu, T. (2001). Emission light properties from... [Pg.485]

Shinbo, K., Toyoshima, S., Ohdaira, Y., Kato, K., and Kaneko, F. (2005). Surface plasmon emission light property due to molecular luminescence and molecular interaction. J. J. Appl. Phys. 44 599-603. [Pg.486]

In the application of high-resolution imaging based on the near-field recording technique, it is interesting to observe various light properties such as polarization, absorption spectrum, fluorescence, and so forth, in near-field regions with the combination of functionalized films for the measurement of these properties. The system has the potential of being an application of the material science of thin films. [Pg.537]

Samarium has some uses similar to those of other rare earth elements. For example, it can be added to glass for color or special optical (light) properties. It is also used to make lasers for special applications. A laser is a device for producing very bright light of a single color. The color produced by the laser depends on the elements it contains. [Pg.514]

Both extrinsic- and intrinsic-type sensors incorporate a transducer element making it an active device. Extrinsic sensors have an external transducer, and the optical fiber just serves the purpose of a light carrier to and from the external transducer whereas, intrinsic sensors have the structure of the optical fiber modified to incorporate the transducer element. In both cases, the transduction mechanisms change the light properties based on interaction with chemical species. [Pg.115]

The success of noninvasive methodologies will lie in the development of remote and noncontact sampling methodologies. Several possibilities have been described (Andrews and Dallin, 2003). In this chapter, only some methodologies using changes in the light properties are developed. [Pg.69]

FIGURE 155. The mystical title page of Johann Heinrich Cohausen s 1717 treatise on phosphorus. Hermes and the flying dragon are sources of fire and light—properties of white phosphorus. [Pg.226]

Abstract The article is focused on the observation of usable possibilities of waste polystyrene that is created during foundry production and that could be used for production of cellular construction material. Thanks to its granulometry this kind of waste polystyrene is very suitable for use in the fine-soft Polymer-Modified Mortars (PMM), for example in the paste and gluing materials determined for ETICS (External Thermal Insulation Composite Systems). The mixtures for waste polystyrene application feature the required cellular light property, they conform to the requirements on the solidity and adhesiveness and conform also to the tension tests for the reinforcing layer. [Pg.141]

Features High-performance prepolymer designed for long wear and abrasion resist. provides exc. wetout of and adhesion to SBR and EPDM prods, will yel. on exposure to UV light Properties Clear, pale yel. liq. sp.gr. 1.12 vise. 1900 cps vapor pressure < 0.0003 mm Hg (20 C) flash pt. (COC) > 227 C 10% NCO content... [Pg.709]

Replicas of gratings can be made successfully and can provide excellent resolution and high reflection efficiency and definition. They usually have somewhat higher scattered light properties than do originals. Most producers of replica gratings do not make the details of their processes available. One method, however, is to prepare a collodion solution, flow it over a grating, allow it to set, strip it off, and mount it on a permanent base. [Pg.66]

J. J. Tyson and J. C. Light, Properties of two-component bimolecular and trimolecular chemical reaction systems, J. Chem. Phys. 59,4164-4173 (1973). [Pg.346]

Fig. 6 Scattered light properties of the Ag sputtered thin films. Fig. 6 Scattered light properties of the Ag sputtered thin films.
The emission properties of the MC LB film on the Ag film are shown in Fig. 9. The dashed and solid curves represent the results measured at the incident angles of = 0 and 40 , respectively. The peak angles of the emission corresponded to the resonant angles of the ATR curves in Fig. 8. Same tendency was observed for the ATR and the emission light properties measured at 594.1 nm and 632.8 nm. It also indicates that the emissions are derived from SPP excitations. [Pg.81]

Fig. 10 Scattered light properties of the MC LB films on Ag thin films. Fig. 10 Scattered light properties of the MC LB films on Ag thin films.
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Charge injection properties, organic light

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Classical mechanics light properties

Corpuscular Properties of Light

Electronics property light-emitting diodes

Emission properties, molecular glasses polarized light creation

Emission properties, molecular glasses white light creation

Hydrogen and chlorine, union in light physical properties

Hydrogen and chlorine, union in light properties, chemical

Light bleaching properties

Light catalytic properties

Light classical properties

Light emission from semiconducting optical properties

Light emitting properties

Light lanthanides, magnetic properties

Light particle properties

Light reflecting properties

Light sensitive polymers properties

Light sources properties

Light water basic properties

Light wave properties

Light wavelike properties

Light, modern theory properties

Lightness color properties

Low Light Saturation Properties of Photosynthetic Organisms

Luminescent properties: light yield

Nonlinear optical properties light scattering

Optical light emitting diodes-physical properties

Optical properties light scattering

Optical properties light-emitting diodes (LEDs

Optical properties light-emitting nanofibers

Optical properties organic light-emitting materials

Optical properties visible light transmittance

Optical properties, spectroscopy Raman light scattering

Organic Light Emitting Devices. Synthesis. Properties and Applications

Organic light emitting diode properties

Organic light emitting diode structural properties

Organic light-emitting devices optical properties

Physical Properties of UV Light

Polarized light properties

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Polythiophenes light-emitting properties

Properties of Light

Ru polyazine light absorbers redox properties

Ru polyazine light absorbers spectroscopic properties

Scattering properties light objects

Selected properties of optical materials and light waves

Specific Properties Resistance to Light - UV Stabilizers

Spin light lanthanides, magnetic properties

The Properties of Laser Light

The Properties of Light

Ultraviolet light properties

Visible light, properties

Wave properties, of light

Wavelike Properties of Light

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