Luiz Barroca Da Silva
Lawrence Livermore National Laboratory
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Featured researches published by Luiz Barroca Da Silva.
Journal of Biomedical Optics | 2002
Patrick Stoller; Beop Min Kim; Alexander M. Rubenchik; Karen M. Reiser; Luiz Barroca Da Silva
Using scanning confocal microscopy, we measure the backscattered second harmonic signal generated by a 100 fs laser in rat-tail tendon collagen. Damage to the sample is avoided by using a continuous scanning technique, rather than measuring the signal at discrete points. The second harmonic signal varies by about a factor of 2 across a single cross section of the rat-tail tendon fascicle. The signal intensity depends both on the collagen organization and the backscattering efficiency. This implies that we cannot use intensity measurements alone to characterize collagen structure. However, we can infer structural information from the polarization dependence of the second harmonic signal. Axial and transverse scans for different linear polarization angles of the input beam show that second harmonic generation (SHG) in the rat-tail tendon depends strongly on the polarization of the input laser beam. We develop an analytical model for the SHG as a function of the polarization angle in the rat-tail tendon. We apply this model in determining the orientation of collagen fibrils in the fascicle and the ratio gamma between the two independent elements of the second-order nonlinear susceptibility tensor. There is a good fit between our model and the measured data.
Lasers in Surgery and Medicine | 2000
Beop Min Kim; Jürgen Eichler; Karen M. Reiser; Alexander M. Rubenchik; Luiz Barroca Da Silva
Helical macromolecules such as collagen and DNA are characterized by nonlinear optical properties, including nonlinear susceptibility. Because collagen is the predominant component of most biological tissues, as well as the major source of second harmonic generation (SHG), it is reasonable to assume that changes in harmonic signal can be attributed to structural changes in collagen. The purpose of this study is to determine whether various modifications of collagen structure affect second harmonic intensity.
Applied Optics | 1999
Ujwal S. Sathyam; Bill W. Colston; Luiz Barroca Da Silva; Matthew J. Everett
We introduce a novel method for determining analyte concentration as a function of depth in a highly scattering media by use of a dual-wavelength optical coherence tomography system. We account for the effect of scattering on the measured attenuation by using a second wavelength that is not absorbed by the sample. We assess the applicability of this technique by measuring the concentration of water in an Intralipid phantom, using a probe wavelength of 1.53 microm and a reference wavelength of 1.31 microm. The results of our study show a strong correlation between the measured absorption and the water content of the sample. The accuracy of the technique, however, was limited by the dominance of scattering over absorption in the turbid media. Thus, although the effects of scattering were minimized, significant errors remained in the calculated absorption values. More-accurate results could be obtained with the use of more powerful superluminescent diodes and a choice of wavelengths at which absorption effects are more significant relative to scattering.
Physics of Plasmas | 2001
David H. Munro; Peter M. Celliers; G. W. Collins; David M. Gold; Luiz Barroca Da Silva; S. W. Haan; R. Cauble; B. A. Hammel; W. W. Hsing
Among the final shots at the Nova laser [Campbell et al., Rev. Sci. Instrum. 57, 2101 (1986)] was a series testing the VISAR (velocity interferometry system for any reflector) technique that will be the primary diagnostic for timing the shocks in a NIF (National Ignition Facility) ignition capsule. At Nova, the VISAR technique worked over the range of shock strengths and with the precision required for the NIF shock timing job—shock velocities in liquid D2 from 12 to 65 μm/ns with better than 2% accuracy. VISAR images showed stronger shocks overtaking weaker ones, which is the basis of the plan for setting the pulse shape for the NIF ignition campaign. The technique is so precise that VISAR measurements may also play a role in certifying beam-to-beam and shot-to-shot repeatability of NIF laser pulses.
Journal of Biomedical Optics | 2001
Beop Min Kim; Michael D. Feit; Alexander M. Rubenchik; Elizabeth J. Joslin; Peter M. Celliers; Ju¨rgen Eichler; Luiz Barroca Da Silva
Ablation characteristics of ultrashort laser pulses were investigated for pulse durations in the range of 130 fs-10 ps. Tissue samples used in the study were dental hard tissue (dentin) and water. We observed differences in ablation crater morphology for craters generated with pulse durations in the 130 fs-1 ps and the 5 ps-10 ps range. For the water experiment, the surface ablation and subsequent propagation of stress waves were monitored using Mach-Zehnder interferometry. For 130 fs-1 ps, energy is deposited on the surface while for longer pulses the beam penetrates into the sample. Both studies indicate that a transition occurs between 1 and 5 ps.
BiOS '99 International Biomedical Optics Symposium | 1999
Matthew J. Everett; Bill W. Colston; Ujwal S. Sathyam; Luiz Barroca Da Silva; Daniel Fried; John D. B. Featherstone
There is no diagnostic technology presently available utilizing non-ionizing radiation that can image the state of demineralization of dental enamel in vivo for the detection, characterization and monitoring of early, incipient caries lesions. In this study, a Polarization Sensitive Optical Coherence Tomography (PS-OCT) system was evaluated for its potential for the non-invasive diagnosis of early carious lesions. We demonstrated clear discrimination in PS-OCT imags between regions of normal and demineralized enamel in bovine enamel blocks containing well-characterized artificial lesions. Moreover, high-resolution, cross- sectional images were acquired that clearly discriminate between the normal and carious regions of extracted human teeth. Regions that appeared to be demineralized in the PS- OCT imags were verified using histological thin sections examined under polarized light. The PS-OCT system discriminates between normal and carious regions by measuring the state of polarization of the back-scattered 1310 nm light, which is affected by the state of demineralization of the enamel. The demineralized regions of enamel have a large scattering coefficient, thus depolarizing the incident light. This initial study shows that PS-OCT has great potential for the detection, characterization, and monitoring of incipient caries lesions.
Applied Physics Letters | 2000
Beop Min Kim; Michael D. Feit; Alexander M. Rubenchik; Elizabeth J. Joslin; Jürgen Eichler; Patrick Stoller; Luiz Barroca Da Silva
We report the effects of the repetition rate and the beam size on the threshold for ultrashort laser pulse induced damage in dentin. The observed results are explained as cumulative thermal effects. Our model is consistent with the experimental results and explains the dependence of the threshold on repetition rate, beam size, and exposure time.
Applied Optics | 1999
Beop Min Kim; Juergen P. Eichler; Luiz Barroca Da Silva
Theoretical and experimental studies of second-harmonic generation (SHG) in biological tissues was performed by use of ultrashort laser pulses (<1 ps). A simplified one-dimensional model for the generation and the propagation of frequency-doubled light inside tissue was developed. This model was tested in vitro against measurements of pig and chicken tissue and human tooth. The experimental results indicate that the intensity of SHG varies significantly among tissue types and between test sites in individual tissue. Possibilities of using this nonlinear tissue property in imaging and diagnostics are discussed.
Lasers in Surgery and Medicine | 1997
Joseph Neev; J. Stuart Nelson; Marguerite Critelli; Jerry L. McCullough; Eric Mun-Wight Cheung; William A. Carrasco; Alexander M. Rubenchik; Luiz Barroca Da Silva; Michael D. Perry; Brent C. Stuart
The hard and resistant structure of the nail plate forms a natural barrier that limits the penetration of topical drugs. To overcome this barrier, the use of pulsed laser systems has been suggested. The purpose of this study was to evaluate the effect of four laser systems on nail plate ablation rates, ablation efficiencies, and subsequent craters morphology.
Photonics West `96: conference on quantum well and superlattice physics VI, San Jose, CA (United States), 27 Jan - 2 Feb 1996 | 1996
Luiz Barroca Da Silva; Brent C. Stuart; Peter M. Celliers; T. D. Chang; Michael D. Feit; Michael E. Glinsky; Nicholas J. Heredia; S. Herman; Stephen M. Lane; Richard A. London; Dennis L. Matthews; Joseph Neev; Michael D. Perry; Alexander M. Rubenchik
Tissue ablation with ultrashort laser pulses offers several unique advantages. The nonlinear energy deposition is insensitive to tissue type allowing this tool to be used for soft and hard tissue ablation. The localized energy deposition leads to precise ablation depth and minimal collateral damage. In this paper we will report on our efforts to study and demonstrate tissue ablation using an ultrashort pulse laser. The ablation efficiency, and extent of collateral damage for 0.3 ps and 1000 ps duration laser pulses will be compared. Temperature measurements of the rear surface of a tooth section will also be presented.