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Interferometers, ARROW

F. Prieto, B. Sepulveda, A. Calle, A. Llobera, C. Dominguez and L.M. Lechuga, Integrated Mach-Zehnder Interferometer based on ARROW stmctures for biosensor applications. Sensors and Actuators B 92, 151-158 (2003). [Pg.140]

Prieto F, Sepulveda B, Calle A, Llobera A, Dominguez C, Lechuga LM (2003) Integrated Mach-Zehnder interferometer based on ARROW structures for biosensor applications. Sensors Actuators B Chem 92 151-158... [Pg.54]

Fig. 8 Different types of interferometers - (a-d) Mach-Zehnder - (a) ion-exchange, (b) channelized, (c) ribbed, (d) ARROW, (e-h) Young - (e) using beam splitter for beam combining, (f) using lens for beam combining, (g, h) using dispersion for beam overlap in a side-by-side configuration, and (h) a sandwich configuration... Fig. 8 Different types of interferometers - (a-d) Mach-Zehnder - (a) ion-exchange, (b) channelized, (c) ribbed, (d) ARROW, (e-h) Young - (e) using beam splitter for beam combining, (f) using lens for beam combining, (g, h) using dispersion for beam overlap in a side-by-side configuration, and (h) a sandwich configuration...
Fig. 2.1 The simplest Michelson interferometer, consisting of two mutually perpendicular plane mirrors, one of which can move along an axis that is perpendicular to its plane. A collimated light source red) reaches the beamsplitter, which splits the light in two paths reflected blue arrow) and transmitted green arrow). The fixed mirror reflects the light back to the beamsplitter, and the movable mirror reflects the transmitted light to the beamsplitter, where they interfere... Fig. 2.1 The simplest Michelson interferometer, consisting of two mutually perpendicular plane mirrors, one of which can move along an axis that is perpendicular to its plane. A collimated light source red) reaches the beamsplitter, which splits the light in two paths reflected blue arrow) and transmitted green arrow). The fixed mirror reflects the light back to the beamsplitter, and the movable mirror reflects the transmitted light to the beamsplitter, where they interfere...
Figure 7.57. In situ ATR spectra of P. putida adsorbed at Ge IRE (50 x 20 x 3 mm, with 19 active reflections inside) after lOOh of adsorption (1) biofilm without toluene (2) 5 ppm toluene (3) 15 ppm toluene. Arrows increase of polysaccharide peaks at 5 ppm toluene and of carboxylic group peak at 15 ppm toluene. Spectra were obtained with multichannel ATR/FTIR spectrometer constructed on basis of RFX-30 FT IR interferometer (Laser Precision Analytical). Reprinted, by permission, from J. Schmitt, D. E. Nivens, D. C. White, and H.-C. Flemming, Water Sci. Tech. 32, 149 (1995), p. 154, Fig. 5. Copyright 1996 International Association on Water Quality (lAWQ). Figure 7.57. In situ ATR spectra of P. putida adsorbed at Ge IRE (50 x 20 x 3 mm, with 19 active reflections inside) after lOOh of adsorption (1) biofilm without toluene (2) 5 ppm toluene (3) 15 ppm toluene. Arrows increase of polysaccharide peaks at 5 ppm toluene and of carboxylic group peak at 15 ppm toluene. Spectra were obtained with multichannel ATR/FTIR spectrometer constructed on basis of RFX-30 FT IR interferometer (Laser Precision Analytical). Reprinted, by permission, from J. Schmitt, D. E. Nivens, D. C. White, and H.-C. Flemming, Water Sci. Tech. 32, 149 (1995), p. 154, Fig. 5. Copyright 1996 International Association on Water Quality (lAWQ).
Figure 5.5. Midac interferometer (a) plan view (b) side view. The direction of the radiation is given by the solid arrows. (Reproduced from [5], by permission of John Wiley Sons, Ltd. copyright 2002.)... Figure 5.5. Midac interferometer (a) plan view (b) side view. The direction of the radiation is given by the solid arrows. (Reproduced from [5], by permission of John Wiley Sons, Ltd. copyright 2002.)...
See other pages where Interferometers, ARROW is mentioned: [Pg.548]    [Pg.2515]    [Pg.1541]    [Pg.410]    [Pg.103]   
See also in sourсe #XX -- [ Pg.73 ]



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