High Intensity Lasers
Mostrando 13-19 de 19 artigos, teses e dissertações.
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13. Optical Transmitter with Millimeter-wave Subcarrier
There is increasing need for high-speed fiberoptic links operating in the microwave and millimeter wave range for applications like cellular personal communication systems (PCS), high capacity distribution systems (HDTV, data, interactive multimedia), phased array, remote antennas, etc. The conventional methods of high frequency modulation at millimeter-wave
IBICT - Instituto Brasileiro de Informação em Ciência e Tecnologia. Publicado em: 199706
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14. Fotoionização atomica em campos de laser intenso
This Thesis focus on a non-perturbative approach to describe a hydrogenic atom behavior in an intense laser field and how it affects the atomic multiphoton ionization rate. The atom in the intense field is described under a formulation which explores an unitary transformation (space translation) to obtain the Lima &Miranda dressed atom effective binding pote
Publicado em: 1985
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15. Methods for the large-scale synthesis of psoralen furan-side monoadducts and diadducts.
We report methods for the preparation of multimicromole quantities of extremely pure uniquely photo-adducted psoralen-DNA furan-side monoadducts and diadducts (cross-links). The methods use high-intensity krypton and argon ion lasers in the photoreactions and HPLC methods to purify the required oligonucleotides containing the photoadducts. With these methods
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16. Theory of light quenching: effects of fluorescence polarization, intensity, and anisotropy decays.
Experimental studies have recently demonstrated that fluorescence emission can be quenched by laser light pulses from modern high repetition rate lasers, a phenomenon we call "light quenching." We now describe the theory of light quenching and some of its effects on the steady-state and time-resolved intensity and anisotropy decays of fluorophores. Light que
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17. Three-photon induced fluorescence of the calcium probe Indo-1.
We report the calcium-dependent emission spectral properties of the calcium probe Indo-1 for three-photon excitation. We found that Indo-1 could be readily excited with the femtosecond pulses from a mode-locked Ti:sapphire laser at 885 nm. This wavelength is too long for two-photon excitation, which is expected to occur for wavelengths no longer than twice t
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18. An approach to three-dimensional structures of biomolecules by using single-molecule diffraction images
We describe an approach to the high-resolution three-dimensional structural determination of macromolecules that utilizes ultrashort, intense x-ray pulses to record diffraction data in combination with direct phase retrieval by the oversampling technique. It is shown that a simulated molecular diffraction pattern at 2.5-Å resolution accumulated from m
The National Academy of Sciences.
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19. Fluorescence lifetime imaging by asynchronous pump-probe microscopy.
We report the development of a scanning lifetime fluorescence microscope using the asynchronous, pump-probe (stimulated emission) approach. There are two significant advantages of this technique. First, the cross-correlation signal produced by overlapping the pump and probe lasers results in i) an axial sectioning effect similar to that in confocal and two-p