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Plane of observation

For this reason the flux through a closed surface surrounding this volume is expressed in terms of surface integral over the plane of observation. Thus, we have... [Pg.47]

Texture formed partly by focal-conic domains with their hyperbolae lying in the plane of observation. [Pg.124]

Figure 2.4-6 Orientation of the electric field vector of the exciting vibration with respect to the plane of observation , the he plane. Figure 2.4-6 Orientation of the electric field vector of the exciting vibration with respect to the plane of observation , the he plane.
In the case of anti-Stokes Raman scattering with the electric vector of the exciting radiation oriented perpendicularly to the plane of observation, the scattering coefficient is ... [Pg.24]

Very useful information may be derived from the intensities in spectra which are obtained with the electric vector of the exciting radiation oriented parallely and perpendicularly to the plane of observation (Eqs. 2.4-7 and 2.4-8). The ratio of the two scattering coefficients is known as the depolarization ratio p ... [Pg.25]

In general, in sequential UVA is spectroscopy the sample is placed between the monochromator and the detector to avoid extreme exposure to high energy UV-radiation. The intensity reduced by the sample falls onto the detector. However, in the case of a diode array spectrometer a sample position behind the polychromator would result in a wavelength gradient (laterally resolved wavelengths) in the sample across the plane of observation, since at the exit of the polychromator a correlation exists between wavelength and space. For this reason, in multiplex spectroscopy the sample is placed directly in front of the polychromator. Under these conditions... [Pg.248]

Figure 14.23 (a) The Rayleigh scattering pattern from a small spherical particle (b) the scattering pattern is the sum of radiation scattered with its electric field vector parallel and perpendicular to the plane of observation... [Pg.453]

Consider a point source PS in the focal plane of a lens forming a parallel light beam that is divided by a beam splitter S into two partial beams (Fig. 2.23). They are superimposed in the plane of observation B after reflection from... [Pg.42]

After being reflected at the plane mirrors Mi and M2, the two waves are superimposed in the plane of observation B. In order to compensate for the dispersion that beam 1 suffers by passing twice through the glass plate of beam splitter S, often an appropriate compensation plate P is placed in one side arm of the interferometer. The amplitudes of the two waves in the plane B are VtEAq, because each wave has been transmitted and reflected once at the beam splitter surface S. The phase difference 0 between the two waves is... [Pg.122]

They are superimposed in the plane of observation B after reflection from the mirrors Mi, M2. This arrangement is called a Michelson interferometer (Sect. 4.2). The two beams with wavelength A travel different optical path lengths SMiSB and SM2SB, and their path difference in the plane B is... [Pg.56]

When illuminated with strictly parallel light paraUel to the interferometer axis the plane of observation behind the FPI is completely dark for A 2nd cos Pint and uniformly illuminated for A =2nd cos j3/nt. The reflected intensity is zero for X = 2nd cos film, otherwise the reflection coefficient is / = 1 which means that the total incident intensity is reflected back into the source. [Pg.165]

FIGURE 4. Snapshots of the HBrC02 system at 4 times during two trajectories, one direct and Ae other complex. For the direct trajectory the relative times of each snapshot are (a) 0 ps (reference), (b) 0.02 ps (c) 0.06 ps and (d) 0.13 ps while for the complex trajectoiy the times are (a) 0 ps (b) 0.02 ps (c) 0.12 ps and (d) 0.28 ps. Note that the atom location is determined by the center of the first symbol (H, C, O, B) associated with it The Cartesian coordinate system has been chosen so that most of each trajectoiy being viewed is near to the plane of observation. Arrows in some of the snapshots indicate the instantaneous direction of motion of the H atom. [Pg.360]

Plateau borders form a hexagonal cross section at plane of observation... [Pg.4]

FIGURE 2.7 Schematic illustration of sampling bias in favor of larger bubbles at plane of observation when imaging foams. (From Garrett, P.R., Foams and antifoams, in Food Colloids, Fundamentals of Formulation, Dickinson, E., Miller, R., eds.. The Royal Society of Chemistry, Special Publication No. 258, p 55, 2001.)... [Pg.41]


See other pages where Plane of observation is mentioned: [Pg.47]    [Pg.217]    [Pg.222]    [Pg.37]    [Pg.57]    [Pg.202]    [Pg.24]    [Pg.17]    [Pg.161]    [Pg.112]    [Pg.247]    [Pg.98]    [Pg.248]    [Pg.397]    [Pg.501]    [Pg.743]    [Pg.66]    [Pg.67]    [Pg.98]    [Pg.128]    [Pg.114]    [Pg.148]    [Pg.224]    [Pg.4]    [Pg.4]    [Pg.39]    [Pg.39]    [Pg.40]    [Pg.41]    [Pg.41]    [Pg.100]    [Pg.132]   
See also in sourсe #XX -- [ Pg.23 ]




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