37 research outputs found
Sequential and direct ionic excitation in the strong-field ionization of 1-butene molecules
We study the Strong-Field Ionization (SFI) of the hydrocarbon 1-butene as a function of wavelength using photoion-photoelectron covariance and coincidence spectroscopy. We observe a striking transition in the fragment-associated photoelectron spectra: from a single Above Threshold Ionization (ATI) progression for photon energies less than the cation D0–D1 gap to two ATI progressions for a photon energy greater than this gap. For the first case, electronically excited cations are created by SFI populating the ground cationic state D0, followed by sequential post-ionization excitation. For the second case, direct sub-cycle SFI to the D1 excited cation state contributes significantly. Our experiments access ionization dynamics in a regime where strong-field and resonance-enhanced processes can interplay
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Molecular orbital imprint in laser-driven electron recollision
Electrons released by strong-field ionization from atoms and molecules or in solids can be accelerated in the oscillating laser field and driven back to their ion core. The ensuing interaction, phase-locked to the optical cycle, initiates the central processes underlying attosecond science. A common assumption assigns a single, welldefined return direction to the recolliding electron. We study laser-induced electron rescattering associated with two different ionization continua in the same, spatially aligned, polyatomic molecule. We show by experiment and theory that the electron return probability is molecular frame-dependent and carries structural information on the ionized orbital. The returning wave packet structure has to be accounted for in analyzing strong-field spectroscopy experiments that critically depend on the interaction of the laser-driven continuum electron, such as laser-induced electron diffraction
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Strong field ionization of small hydrocarbon chains with full 3D momentum analysis
Strong field ionization of small hydrocarbon chains is studied in a kinematic complete experiment using a reaction microscope. By coincidence detection of ions and electrons different ionization continua populated during the ionization process are identified. In addition, photoelectron momentum distributions from laser-aligned molecules allow to characterize the electron wavepackets emerging from different Dyson orbitals
Fixação zigomática em portadores de fissura de lábio e palato: relato de caso clínico
A técnica de Fixação Zigomática serve como um meio alternativo para pacientes que apresentam grande perda de estrutura maxilar decorrentes de atrofia maxilar severa, traumas, cirurgias ressectivas tumorais ou defeitos congênitos. Pacientes portadores de fissura de lábio e palato podem ser beneficiados com esta técnica, pois apresentam baixo desenvolvimento de seus maxilares devido às cirurgias primárias de queiloplastia e palatoplastia. O implante zigomático de titânio que possui em média 30 mm a 52,5 mm de comprimento, se insere no rebordo alveolar remanescente em direção ao corpo do zigoma. Por meio dessa técnica, é possível ancorar uma prótese fixa utilizando carga precoce. Objetivo: O objetivo deste trabalho foi de relatar um caso ocorrido no Hospital de Reabilitação de Anomalias Craniofaciais, Bauru, São Paulo, com resolução protética de um paciente portador de fissura labiopalatina através da ancoragem zigomática. Relato Clínico: Em 2008, paciente do Hospital de Reabilitação de Anomalias Craniofaciais, portadora de fissura labiopalatina, foi realizado um planejamento criterioso e a opção mais adequada foi a resolução protética através de uma ancoragem em zigoma. Foi utilizado implante zigomático do lado direito e implantes unitários na região dos dos elementos dentários 13 e 11, após exodontia do elemento 11. Assim, confeccionada uma prótese sobre implantes e placa miorrelaxante com controle de 45 dias. Conclusão: Esta alternativa possibilita ao paciente uma menor morbidade, sem a necessidade de cirurgias de reconstrução óssea, apresenta um tempo menor de tratamento e consequentemente integrando o paciente à sociedade.Disponível em CD-Rom. Acesso ao resumo
Coincidence and covariance data acquisition in photoelectron and -ion spectroscopy. I. Formal theory
We derive a formal theory of noisy Poisson processes with multiple outcomes. We obtain simple, compact expressions for the probability distribution function of arbitrarily complex composite events and its moments. We illustrate the utility of the theory by analyzing properties of coincidence and covariance photoelectron-photoion detection involving single-ionization events. The results and techniques introduced in this work are directly applicable to more general coincidence and covariance experiments, including multiple ionization and multiple-ion fragmentation pathways.Peer reviewed: YesNRC publication: Ye
Coincidence and covariance data acquisition in photoelectron and -ion spectroscopy. II. Analysis and applications
We use an analytical theory of noisy Poisson processes, developed in the preceding companion publication, to compare coincidence and covariance measurement approaches in photoelectron and -ion spectroscopy. For non-unit detection efficiencies, coincidence data acquisition (DAQ) suffers from false coincidences. The rate of false coincidences grows quadratically with the rate of elementary ionization events. To minimize false coincidences for rare event outcomes, very low event rates may hence be required. Coincidence measurements exhibit high tolerance to noise introduced by unstable experimental conditions. Covariance DAQ on the other hand is free of systematic errors as long as stable experimental conditions are maintained. In the presence of noise, all channels in a covariance measurement become correlated. Under favourable conditions, covariance DAQ may allow orders of magnitude reduction in measurement times. Finally, we use experimental data for strong-field ionization of 1,3-butadiene to illustrate how fluctuations in experimental conditions can contaminate a covariance measurement, and how such contamination can be detected.Peer reviewed: YesNRC publication: Ye