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Electric field radiation

The equivalent circuit of a semiconductor detector operated as a spectrometer is shown in Fig. 5.30. In most cases, effects of high resistance of the reverse-biased junction are negligible. If a zero-electric-field radiation-insensitive region is present in the detector, its impedance (a parallel RC combination) appears in series with the circuit and is indicated in Fig. 5.30 by the impedance Z. The impedance also accounts for any resistance (or resistance-capacitance combination) appearing in series with the contacts. [Pg.151]

A more detailed sketch of the electric-field radiation cell, Compartment A, is shown in Figure 2. The dual electron-beam section, Compartments B and C, has been described elsewhere (34, 39). [Pg.107]

Figure 2-26. FTIR-poIarization spectra of the investigated FLCP prealigned at 47 °C and different polarity of the electric field (radiation polarized at 45° to the rubbing direction according to the geometry of Figure 2-24). Figure 2-26. FTIR-poIarization spectra of the investigated FLCP prealigned at 47 °C and different polarity of the electric field (radiation polarized at 45° to the rubbing direction according to the geometry of Figure 2-24).
Schmidt, W. E, Radiation induced conductivity and ion yields in neopentane at high electric fields, Radiat, Res, 42, 73,1970. [Pg.102]

It follows from equation (2.70) that the electric field radiated by the classical atom has a similar time-dependence ... [Pg.231]

Any cavity contains an infinite number of electromagnetic modes. For radiation confined to a perfectly conducting cubical cavity of volume V= L, the modes are given by the electric field components of the fomi ... [Pg.409]

State I ) m the electronic ground state. In principle, other possibilities may also be conceived for the preparation step, as discussed in section A3.13.1, section A3.13.2 and section A3.13.3. In order to detemiine superposition coefficients within a realistic experimental set-up using irradiation, the following questions need to be answered (1) Wliat are the eigenstates (2) What are the electric dipole transition matrix elements (3) What is the orientation of the molecule with respect to the laboratory fixed (Imearly or circularly) polarized electric field vector of the radiation The first question requires knowledge of the potential energy surface, or... [Pg.1059]

In order to illustrate some of the basic aspects of the nonlinear optical response of materials, we first discuss the anliannonic oscillator model. This treatment may be viewed as the extension of the classical Lorentz model of the response of an atom or molecule to include nonlinear effects. In such models, the medium is treated as a collection of electrons bound about ion cores. Under the influence of the electric field associated with an optical wave, the ion cores move in the direction of the applied field, while the electrons are displaced in the opposite direction. These motions induce an oscillating dipole moment, which then couples back to the radiation fields. Since the ions are significantly more massive than the electrons, their motion is of secondary importance for optical frequencies and is neglected. [Pg.1266]

A MBER spectrometer is shown schematically in figure C1.3.1. The teclmique relies on using two inhomogeneous electric fields, the A and B fields, to focus the beam. Since the Stark effect is different for different rotational states, the A and B fields can be set up so that a particular rotational state (with a positive Stark effect) is focused onto the detector. In MBER spectroscopy, the molecular beam is irradiated with microwave or radiofrequency radiation in the... [Pg.2440]

The high-field output of laser devices allows for a wide variety of nonlinear interactions [17] between tire radiation field and tire matter. Many of tire initial relationships can be derived using engineering principles by simply expanding tire media polarizability in a Taylor series in powers of tire electric field ... [Pg.2863]

The electric field of electromagnetic radiation completes 4.00 x lO - " complete cycles in 1.00 s. What are the period and frequency of the oscillation, and what is its wavelength What is the frequency in units of cm ... [Pg.166]

Plane-polarized electromagnetic radiation showing the electric field, the magnetic field, and the direction of propagation. [Pg.369]

Electric field component of plane-polarized electromagnetic radiation. [Pg.370]

The interaction of electromagnetic radiation with matter can be explained using either the electric field or the magnetic field. For this reason, only the electric field component is shown in Figure 10.2. The oscillating electric field is described by a sine wave of the form... [Pg.370]

In absorption spectroscopy a beam of electromagnetic radiation passes through a sample. Much of the radiation is transmitted without a loss in intensity. At selected frequencies, however, the radiation s intensity is attenuated. This process of attenuation is called absorption. Two general requirements must be met if an analyte is to absorb electromagnetic radiation. The first requirement is that there must be a mechanism by which the radiation s electric field or magnetic field interacts with the analyte. For ultraviolet and visible radiation, this interaction involves the electronic energy of valence electrons. A chemical bond s vibrational energy is altered by the absorbance of infrared radiation. A more detailed treatment of this interaction, and its importance in deter-... [Pg.380]

Application of an electric field between two metal electrodes causes a few ions and electrons to be desorbed and is surface or thermal emission (see Chapter 7 for more information on thermal ionization). Unless the electrodes are heated strongly, the number of electrons emitted is very small, but, even at normal temperatures, this emission does add to the small number of electrons caused by cosmic radiation and is continuous. [Pg.40]

In this discussion we define the x direction to be the direction of propagation of the light waves. This means that the yz plane contains the oscillating electrical and magnetic fields which carry the energy of the radiation. Only the electric field concerns us in scattering. Since the oscillation is periodic in both time t and location x, the electric field can be represented by the equation... [Pg.664]

This result, called the Clausius-Mosotti equation, gives the relationship between the relative dielectric constant of a substance and its polarizability, and thus enables us to express the latter in terms of measurable quantities. The following additional comments will connect these ideas with the electric field associated with electromagnetic radiation ... [Pg.668]

See other pages where Electric field radiation is mentioned: [Pg.338]    [Pg.10]    [Pg.603]    [Pg.371]    [Pg.39]    [Pg.159]    [Pg.233]    [Pg.338]    [Pg.10]    [Pg.603]    [Pg.371]    [Pg.39]    [Pg.159]    [Pg.233]    [Pg.914]    [Pg.230]    [Pg.1061]    [Pg.1062]    [Pg.1152]    [Pg.1179]    [Pg.1179]    [Pg.1263]    [Pg.1263]    [Pg.1298]    [Pg.1385]    [Pg.1386]    [Pg.1559]    [Pg.1879]    [Pg.1879]    [Pg.2863]    [Pg.369]    [Pg.771]    [Pg.40]    [Pg.41]    [Pg.669]    [Pg.27]    [Pg.49]    [Pg.60]   
See also in sourсe #XX -- [ Pg.522 ]



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Circularly polarized radiation electric fields

Electrically radiator

Electromagnetic radiation electric field

Field radiation

Radiated fields

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