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Microwave-optical polarization

An extremely sensitive MODR scheme, microwave optical polarization spectroscopy (MOPS), was introduced by Ernst and Torring (1982). The most important features of MOPS are that it requires respectively 100 and 10 times lower laser and microwave intensities than MODR and results in 10 times narrower lines. This means that it will be possible to take full advantage of differential power broadening effects (Section 6.5.1) and to utilize low-power, frequency-doubled dye lasers and low-power, broadly tunable microwave sources (backward wave oscillators) in order to gain access to and systematically study perturbations. [Pg.438]

W.E. Ernst, T. Torring, Hyperfine Structure in the X S state of CaQ, measured with microwave optical polarization spectroscopy. Phys. Rev. A 27, 875 (1983)... [Pg.707]

Mode 2 is a particularly sensitive method to detect mw transitions as will be shown in chapter III and is called microwave-optical polarization spectroscopy (MOPS). Polarization spectroscopy techniques require less intensity of laser and mw radiation than the corresponding nonlinear methods based on fluorescence detection. Power broadening is avoided which is the reason for the largely improved resolution of MOPS compared to conventional microwave optical double resonance (MOOR) spec-... [Pg.193]

W.E. Ernst and T. Tdrring, Microwave-optical polarization spectroscopy, Phys.Rev.A 25 1236 (1982). [Pg.200]

Flgiire 9. Experimental setup for microwave-optical polarization spectroscpy (MOPS)/ The BaO molecules under investigation were produced by a gas phase reaction of metallic Ba with NjO. [Pg.16]

Figure 10. An example of a pumping scheme for microwave-optical polarization spectroscopy. A rotational transition in the ground state is detected via an anisotropy in the optical absorption. With the i axis chosen parallel to , the microwaves only pump AM = 0 transitions. When the linear polarization of the laser light (Ei.) is rotated by 45 and its frequency tuned to the appropriate transition, the z and x components (pumping IT and Figure 10. An example of a pumping scheme for microwave-optical polarization spectroscopy. A rotational transition in the ground state is detected via an anisotropy in the optical absorption. With the i axis chosen parallel to , the microwaves only pump AM = 0 transitions. When the linear polarization of the laser light (Ei.) is rotated by 45 and its frequency tuned to the appropriate transition, the z and x components (pumping IT and <r transitions, respectively) will experience different absorptions and refraction indices. This leads to microwave induced changes of the isotropic optical absorption. After Ref. 39.
Major advantages of microwave-optical polarization spectroscopy are narrower linewidths as compared to conventional laser-rf double resonance and smaller intensities required for the laser light field and the micro-waves, so that strongly saturating conditions can be avoided. Therefore, the sensitivity as well as the resolution can be greatly enhanced. [Pg.17]

Microwave-Optical Double-Resonance Polarization Spectroscopy... [Pg.263]

A very sensitive and accurate double-resonance technique is microwave-optical double-resonance polarization spectroscopy (MOPS), developed by Ernst et al. [Pg.263]

There are many experimental techniques for the determination of the Spin-Hamiltonian parameters g, Ux, J. D, E. Often applied are Electron Paramagnetic or Spin Resonance (EPR, ESR), Electron Nuclear Double Resonance (ENDOR) or Triple Resonance, Electron-Electron Double Resonance (ELDOR), Nuclear Magnetic Resonance (NMR), occasionally utilizing effects of Chemically Induced Dynamic Nuclear Polarization (CIDNP), Optical Detections of Magnetic Resonance (ODMR) or Microwave Optical Double Resonance (MODR), Laser Magnetic Resonance (LMR), Atomic Beam Spectroscopy, and Muon Spin Rotation (/iSR). The extraction of data from the spectra varies with the methods, the system studied and the physical state of the sample (gas, liquid, unordered or ordered solid). For these procedures the reader is referred to the monographs (D). Further, effective magnetic moments of free radicals are often obtained from static... [Pg.2]

A new very sensitive and accurate double-resonance technique is the Microwave-Optical double-resonance Polarization Spectroscopy (MOPS) developed by Ernst et. al [10.93]. This technique detects microwave transitions in a sample between crossed polarizers through the change in transmission of a polarized optical wave. The sensitivity of the method has been demonstrated by measurements of the hfs of rotational transitions in the electronic ground state of CaCl molecules which were produced by the reaction 2Ca+ CI2 - CaCl in an argon flow. In spite of the small concentrations of CaCl reaction products and the short absorption pathlength in the reaction zone a good signal-to-noise ratio could be achieved at linewidths of lf2 MHz [10.94]. [Pg.589]

Campos, R, D Assuncao, A., Neto, G. - Scattering characteristics of FSS on two anisotropic layers for incident co-polarized plane waves , Microwave Optical Technol. Lett. 33(1) (2002) 57-61... [Pg.192]

Other optical and spectroscopic techniques are also important, particularly with regard to segmental orientation. Some examples are fluorescence polarization, deuterium nuclear magnetic resonance (NMR), and polarized IR spectroscopy [4,246,251]. Also relevant here is some work indicating that microwave techniques can be used to image elastomeric materials, for example, with regard to internal damage [252,253]. [Pg.374]


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