Ultrafast Phenomena
Mostrando 1-8 de 8 artigos, teses e dissertações.
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1. Espectroscopia ultrarrápida do polímero semicondutor luminescente MEH-PPV com excitação no ultravioleta / Ultrafast spectroscopy of the luminescent semiconducting polymer MEH-PPV with ultraviolet excitation
The optoelectronics industry is currently undergoing a transition period in which inorganic materials are being replaced by organic materials, oligomers and polymers, in the fabrication of some types of devices. However, factors such as low efficiency and low lifetime prevent polymer based devices on entering the market definitely. The solution of these issu
IBICT - Instituto Brasileiro de Informação em Ciência e Tecnologia. Publicado em: 17/08/2012
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2. Estudo de fenomenos opticos ultra-rapidos lineares e não-lineares em pontos quanticos semicondutores / Study of ultrafast linear and nonlinear optical properties of semiconductor quantum dots
Nesta tese as propriedades ópticas lineares e não-lineares em pontos quânticos de semicondutores de band-gap diretos, CdTe e CdSe, são estudados em escala temporal de femtossegundos, especialmente aquelas propriedades importantes para aplicações em chaveamento totalmente óptico, como o tempo de resposta e a susceptibilidade de terceira ordem. Os proce
Publicado em: 2006
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3. Images by Nuclear Magnetic Resonance: A Modified Version of the EPI Method
It is well known that data accquisition times and image reconstruction procedures in conventional magnetic resonance imaging (MRI) are usually long. For time dependent phenomena, such as sample motion, respiration, blood flow pulsation and others, faster accquision times are desirable to avoid ghosting artifacts. Over the last two decades, a great number of
Brazilian Journal of Physics. Publicado em: 2001-06
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4. Dinamica de femtossegundos em pontos quanticos de CdTe
We study the ultrafast phenomena in CdTc Quantum Dots in Borosilicate Glasses using short laser pulses (femtoseconds) methods. Measuring the Time Resolved Differential Transmission Spectroscopy we find infrared shifts of the bleached spectra. For the interpretation of these data we study the Electronic Structure of CdTe with 0-D Quantum Confinement. We deter
Publicado em: 1998
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5. Ultrafast dynamics of many-body processes and fundamental quantum mechanical phenomena in semiconductors
The large dielectric constant and small effective mass in a semiconductor allows a description of its electronic states in terms of envelope wavefunctions whose energy, time, and length scales are mesoscopic, i.e., halfway between those of atomic and those of condensed matter systems. This property makes it possible to demonstrate and investigate many quantu
The National Academy of Sciences.
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6. Ultrafast diffraction and structural dynamics: The nature of complex molecules far from equilibrium
Studies of molecular structures at or near their equilibrium configurations have long provided information on their geometry in terms of bond distances and angles. Far-from-equilibrium structures are relatively unknown—especially for complex systems—and generally, neither their dynamics nor their average geometries can be extrapolated from equilibrium va
The National Academy of Sciences.
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7. Interchain vs. intrachain energy transfer in acceptor-capped conjugated polymers
The energy-transfer processes taking place in conjugated polymers are investigated by means of ultrafast spectroscopy and correlated quantum-chemical calculations applied to polyindenofluorenes end-capped with a perylene derivative. Comparison between the time-integrated luminescence and transient absorption spectra measured in solution and in films allows d
National Academy of Sciences.
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8. Biological water at the protein surface: Dynamical solvation probed directly with femtosecond resolution
Biological water at the interface of proteins is critical to their equilibrium structures and enzyme function and to phenomena such as molecular recognition and protein–protein interactions. To actually probe the dynamics of water structure at the surface, we must examine the protein itself, without disrupting the native structure, and the ultrafast elemen
The National Academy of Sciences.