Your search keyword '"Kalinowski HJ"' showing total 20 results

1. Simultaneous strain and temperature measurement with enhanced intrinsic sensitivity using etched polymer fibre Bragg gratings

Author

Kalinowski, HJ, Fabris, JL, Bock, WJ, Bhowmik, K, Peng, GD ; https://orcid.org/0000-0001-7984-8925, Luo, Y ; https://orcid.org/0000-0002-5929-6083, Ambikairajah, E ; https://orcid.org/0000-0003-4673-6534, Rajan, G, Kalinowski, HJ, Fabris, JL, Bock, WJ, Bhowmik, K, Peng, GD ; https://orcid.org/0000-0001-7984-8925, Luo, Y ; https://orcid.org/0000-0002-5929-6083, Ambikairajah, E ; https://orcid.org/0000-0003-4673-6534, and Rajan, G

Abstract

© 2015 SPIE. A PMMA based single-mode polymer optical fibre is etched to different diameter and it is observed that etching can lead to change in the material properties of the fibre such as Young's modulus and thermal expansion coefficient. This can play a vital role in improving the intrinsic sensing capabilities based on etched polymer optical fibre. Thus, exploiting the different strain and temperature sensitivities exhibited by the etched and un-etched polymer FBGs and by using an FBG array, strain and temperature can be measured simultaneously and also with very high sensitivity.

Published

2015

2. Optical and electrical characterisation of an p(+)-InAs0.96Sb0.04/n(0)-InAs0.96Sb0.04/n(+)-InAs photodetector for mid-infrared application

Author

Kalinowski, HJ, Romero, MA, Barbin, SE, Chakrabarti, P, Krier, A, Huang, X L, Fenge, P, Lal, R K, Kalinowski, HJ, Romero, MA, Barbin, SE, Chakrabarti, P, Krier, A, Huang, X L, Fenge, P, and Lal, R K

Abstract

An InAsSb p(+)-n junction photodetector grown on InAs substrate by Liquid Phase Epitaxy has been modeled and characterized. The results obtained on the basis of the model are compared and contrasted with experimentally measure values. Both electrical and optical characterisation of the device has been carried out for exploring the application potential of the device in absorption spectroscopy based gas sensors. The model enables one to explain the various mechanisms that shape the characteristics of the device under actual operating condition. It can also be used as a tool for optimizing the detector.

Published

2003

3. Characterization of the optical and electrical spectra of a fiber ring laser

Author

Giraldi, Mtmr, Maria Pontes, Santos, Mjd, Abe, I., and Kalinowski, Hj

4. Nanoporous nanocrystalline monoclinic zirconia for luminescent oxygen sensors

Author

J.D. Fidelus, T. Tenderenda, Tomasz Nasilowski, Wuzong Zhou, Kalinowski, HJ, Fabris, JL, Bock, WJ, University of St Andrews. School of Chemistry, and University of St Andrews. EaSTCHEM

Subjects

Optical fiber, Materials science, Zirconium dioxide, Nanoporous, NDAS, Nanotechnology, QD Chemistry, T Technology, Nanocrystalline material, law.invention, chemistry.chemical_compound, QC Physics, Chemical engineering, chemistry, law, Fiber optic sensor, QD, Cubic zirconia, Oxygen sensor, QC, Monoclinic crystal system

Abstract

In this work we present a nanocrystalline monoclinic ZrO2 with large free volumen open towards the nanocrystals surface dedicated for optical oxygen sensors. Nanoporous zirconia nanopowder was fabricated in hydrothermal microwave-driven process followed by annealing at 800°C. Metal-coated optical fibers are proposed as a light carrier when the working temperature exceeds 500°C. The obtained results may also find application in luminescent fiber optic oxygen sensors. Publisher PDF

Published

2015

5. A fluorescent optical fibre chemosensor for mercury detection

Author

Kenneth T. V. Grattan, Tong Sun, Stephen P. Wren, Kalinowski, HJ, Fabris, JL, and Bock, WJ

Subjects

chemistry.chemical_classification, Aqueous solution, Fluorophore, TK, Analytical chemistry, chemistry.chemical_element, Photochemistry, Fluorescence, law.invention, Mercury (element), chemistry.chemical_compound, chemistry, Covalent bond, law, Moiety, QD, Crown ether, Mercury probe

Abstract

A proof-of-concept mercury probe was developed based on covalent attachment of a chemical coating to optical fibre. The sensing element comprised a dansyl derivative and crown ether moiety, acting as fluorophore and metal ion chelator respectively. An ON-OFF type fluorescence (quench) occurred upon binding of mercury ions, via an intramolecular charge transfer mechanism, in aqueous solution in the 909nM-90.9μM (247 ppb -24.7 ppm) concentration range. A washing protocol was identified for sensor regeneration allowing the probe to be re-used.

Published

2015

6. Fiber Bragg grating thermometry application to measure flow: laminar and turbulent regimes.

Author

Patyk RL, Grabarski L, and Kalinowski HJ

Abstract

Flow characteristic properties in pipelines are determined from the temperature evolution, measured by fiber Bragg gratings, after transit of a thermal slug. Results analyze both laminar and turbulent flow regimes.

Published

2023

7. Kinetics of polymerization shrinkage of self-adhesive and conventional dual-polymerized resin luting agents inside the root canal.

Author

Pulido C, Arrais CAG, Gomes GM, Franco APGB, Kalinowski HJ, Dávila-Sánchez A, and Mongruel Gomes OM

Subjects

Dental Cements, Dental Pulp Cavity, Dentin, Kinetics, Materials Testing, Polymerization, Resin Cements, Dental Bonding, Post and Core Technique

Abstract

Statement of Problem: Information regarding the shrinkage kinetics and monomer conversion of dual-polymerized conventional and self-adhesive resin luting agents (RLA) in situ is lacking., Purpose: The purpose of this in vitro study was to evaluate the shrinkage strain and ratio of 1 conventional and 1 self-adhesive RLA by using fiber optic sensors based on Bragg gratings and Vickers hardness in the root canal., Material and Methods: The root canals of 34 single-rooted premolars were endodontically treated and assigned to 2 groups according to the RLA: RelyX ARC (ARC) and RelyX U200 (U200). Two Bragg grating sensors were attached to fiber posts (n=10), and both post and RLA were placed inside the root canal so that shrinkage strain and ratio values could be measured at the cervical and apical root thirds. For hardness analysis (n=7), two 1-mm-thick slices of each root-third (cervical and apical) were obtained, and 4 indentations were made on the RLA layer. The shrinkage strain and rate, as well as hardness data, were evaluated by using 2-way repeated-measures ANOVA followed by the Bonferroni post hoc test when a significant interaction between factors was detected (α=.05)., Results: The shrinkage strain and rate values of both RLAs were higher at the cervical third than those at the apical third. ARC showed higher shrinkage strain than U200 at the cervical third. The highest hardness values were observed at the cervical third, while ARC showed the lowest hardness values at the apical third., Conclusions: The shrinkage kinetics profile and hardness of self-adhesive RLA may differ from those of conventional RLA depending on the root third., (Copyright © 2020 Editorial Council for the Journal of Prosthetic Dentistry. Published by Elsevier Inc. All rights reserved.)

Published

2021

8. Bulk Fill flow resin contraction using 3D finite element model and calibration by Fiber Bragg Grating measurement.

Author

Antunes Junior C, Mercuri EGF, Franco APGO, Costa M, Karam LZ, Kalinowski HJ, and Gomes OMM

Subjects

Adult, Biomechanical Phenomena, Bite Force, Calibration, Dental Bonding, Dental Stress Analysis, Humans, Imaging, Three-Dimensional, Materials Testing, Polymerization, Pressure, Temperature, Young Adult, Composite Resins chemistry, Finite Element Analysis, Optics and Photonics methods

Abstract

Contraction due to polymerization of dental resin can cause failure on the adhesive interfaces, can lead to problems such as the appearance of gaps in the interfaces, postoperative sensitivity, pulp damage and the return of the caries. The objective of this work is the study of stresses on the dental adhesive that are generated by the process shrinkage of resin associated with biting forces. A laboratory experiment measured the strains and temperature inside the Filtek TM Bulk Fill Flow resin during the process of polymerization using Fiber Bragg Grating sensors in an ex vivo tooth. From tomographic images a three-dimensional geometric model of the tooth was reconstructed. A pre-tension was calibrated to simulate the residual contraction on the resin 3 D model. Finally, an Finite Element Method analysis was performed to access the adhesive stresses at the interface enamel/dentin with the adhesive, considering as loading the residual polymerization contraction of the dental resin and also biting loads. The model was able to represented the strain obtained in the laboratory experiment. The results of the stress analysis shows that the outer regions of adhesive are more prone to failure, as veried by dental surgeons in clinical practice.

Published

2020

9. Critical Issues of Double-Metal Layer Coating on FBG for Applications at High Temperatures.

Author

Lupi C, Felli F, dell'Era A, Ciro E, Caponero MA, Kalinowski HJ, and Vendittozzi C

Abstract

Use of fiber Bragg gratings (FBGs) to monitor high temperature (HT) applications is of great interest to the research community. Standard commercial FBGs can operate up to 600 ∘ C. For applications beyond that value, specific processing of the FBGs must be adopted to allow the grating not to deteriorate. The most common technique used to process FBGs for HT applications is the regeneration procedure (RP), which typically extends their use up to 1000 ∘ C. RP involves a long-term annealing of the FBGs, to be done at a temperature ranging from 550 to 950 ∘ C. As at that temperature, the original coating of the FBGs would burn out, they shall stay uncoated, and their brittleness is a serious concern to deal with. Depositing a metal coating on the FBGs prior to process them for RP offers an effective solution to provide them with the necessary mechanical strengthening. In this paper, a procedure to provide the FBG with a bimetallic coating made by copper and nickel electrodeposition (ED) is proposed, discussing issues related to the coating morphology, adherence to the fiber, and effects on the grating spectral response. To define the processing parameters of the proposed procedure, production tests were performed on dummy samples which were used for destructive SEM-EDS analysis. As a critical step, the proposed procedure was shown to necessitate a heat treatment after the nickel ED, to remove the absorbed hydrogen. The spectral response of the FBG samples was monitored along the various steps of the proposed procedure and, as a final proof test for adherence stability of the bimetallic coating, along a heating/cooling cycle from room temperature to 1010 ∘ C. The results suggest that, given the emergence of Kirkendall voids at the copper-nickel interface, occurring at the highest temperatures (700-1010 ∘ C), the bimetallic layer could be employed as FBG coating up to 700 ∘ C.

Published

2019

10. Water assessment using ultra-weak bioluminescence.

Author

Cordeiro AC, Fabris JL, Couto GH, Kalinowski HJ, and Bertogna E

Subjects

Escherichia coli growth & development, Photons, Rivers microbiology, Environmental Monitoring methods, Luminescent Measurements, Water chemistry, Water Microbiology

Abstract

In this paper a method to evaluate the presence of microorganisms of the coliform group in water samples using the ultra-weak bioluminescence (UWB) is proposed. A series of UWB measurements and optical density measurements from cultures of both a set of standard E. coli strain samples, and a set of water samples from a river near Curitiba City in Brazil were performed. All samples were previously incubated at 37°C for 11h in nutritive medium before the temporal UWB emission profiles data were acquired for a period of 24h inside a dark chamber of an especially implemented instrumentation capable of doing photon counting measurements. For the optical density measurements, a spectrophotometer was used to acquire the growth kinetics of those cultures for a period of 13h, and the results compared to the UWB profiles. Periodic time-components analysis of the UWB data from both the set of standard E. coli samples and the set of the river's water samples were performed and compared to each other. The results have shown that the UWB temporal profiles resemble in some way the growth kinetics curve and the periodic time-components analysis is an effective way to discriminate between contaminated and non-contaminated samples, therefore the method may be viable for detecting coliforms in water samples in less time than usual methods., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017

11. Characterization of femtosecond-inscribed fiber Bragg gratings in the visible spectral region.

Author

Inácio PL, da Silva Vasco Sualehe I, Chiamenti I, de Oliveira V, and Kalinowski HJ

Abstract

The femtosecond-laser pulse inscription and characterization of fiber Bragg gratings for operation at visible wavelengths was performed using several types of optical fibers, including single-mode and graded-index fibers designed for near-infrared wavelengths. The obtained bandwidths are very narrow (∼0.12-0.36  nm) for the used exposure conditions, even in graded-index fibers. Thermal and strain characterization was performed, with results about half of those found for C-band gratings. The wavelength dependence of the sensitivity is compared with a Sellmeier model.

Published

2017

12. An in situ evaluation of the polymerization shrinkage, degree of conversion, and bond strength of resin cements used for luting fiber posts.

Author

Pulido CA, de Oliveira Franco AP, Gomes GM, Bittencourt BF, Kalinowski HJ, Gomes JC, and Gomes OM

Subjects

Dental Bonding standards, Dental Marginal Adaptation, Dental Stress Analysis, Humans, In Vitro Techniques, Polymerization, Dental Bonding methods, Dental Cements therapeutic use, Post and Core Technique, Resin Cements therapeutic use

Abstract

Statement of Problem: The behavior and magnitude of the deformations that occur during polymerization and the behavior of the luting agents of glass fiber posts inside the root canal require quantification., Purpose: The purpose of this in vitro study was to investigate the in situ polymerization shrinkage, degree of conversion, and bond strength inside the root canal of resin cements used to lute fiber posts., Material and Methods: Thirty maxillary canines were prepared to lute fiber posts. The teeth were randomly divided into 2 groups (n=15) according to the cementation system used, which included ARC, the conventional dual-polymerized resin cement RelyX ARC, and the U200 system, a self-adhesive resin cement, RelyX U200. Two fiber optic sensors with recorded Bragg gratings (FBG) were attached to each post before inserting the resin cement inside the root canal to measure the polymerization shrinkage (PS) of the cements in the cervical and apical root regions (με). Specimens were sectioned (into cervical and apical regions) to evaluate bond strength (BS) with a push-out test and degree of conversion (DC) with micro-Raman spectroscopy. Data were statistically analyzed with 2-way ANOVA and the Tukey honestly significant difference post hoc test (α=.05)., Results: The ARC and U200 system showed similar PS values (-276.4 ±129.2 με and -252.1 ±119.2 με, respectively). DC values from ARC were higher (87.5 ±2.7%) than those of U200 (55.9 ±9.7%). The cervical region showed higher DC values (74.8 ±15.2%) and PS values (-381.6 ±53.0 με) than those of the apical region (68.5 ±20.1% and -146.9 ±43.5 με, respectively) for both of the resin cements. BS was only statistically different between the cervical and apical regions for ARC (P<.05)., Conclusions: The ARC system showed the highest PS and DC values compared with U200; and for both of the resin cements, the PS and DC values were higher at the cervical region than at the apical region of the canal root. BS was higher in the cervical region only for ARC., (Copyright © 2016 Editorial Council for the Journal of Prosthetic Dentistry. Published by Elsevier Inc. All rights reserved.)

Published

2016

13. In Vivo Pattern Classification of Ingestive Behavior in Ruminants Using FBG Sensors and Machine Learning.

Author

Pegorini V, Karam LZ, Pitta CS, Cardoso R, da Silva JC, Kalinowski HJ, Ribeiro R, Bertotti FL, and Assmann TS

Subjects

Algorithms, Animals, Biomechanical Phenomena, Equipment Design, Fiber Optic Technology methods, Ruminants, Feeding Behavior classification, Feeding Behavior physiology, Fiber Optic Technology instrumentation, Machine Learning, Mastication physiology

Abstract

Pattern classification of ingestive behavior in grazing animals has extreme importance in studies related to animal nutrition, growth and health. In this paper, a system to classify chewing patterns of ruminants in in vivo experiments is developed. The proposal is based on data collected by optical fiber Bragg grating sensors (FBG) that are processed by machine learning techniques. The FBG sensors measure the biomechanical strain during jaw movements, and a decision tree is responsible for the classification of the associated chewing pattern. In this study, patterns associated with food intake of dietary supplement, hay and ryegrass were considered. Additionally, two other important events for ingestive behavior were monitored: rumination and idleness. Experimental results show that the proposed approach for pattern classification is capable of differentiating the five patterns involved in the chewing process with an overall accuracy of 94%.

Published

2015

14. Stepwise fabrication of arbitrary fiber optic tapers.

Author

Felipe A, Espíndola G, Kalinowski HJ, Lima JA, and Paterno AS

Subjects

Equipment Design, Equipment Failure Analysis, Hot Temperature, Fiber Optic Technology instrumentation

Abstract

This work reports a modified flame-brush technique to fabricate fiber tapers with arbitrary waist profiles. The flame-brush approach is used to produce small step reductions in the fiber diameter, or step-tapers, with a constant speed flame brush sweep, while the fiber is uniformly stretched. Arbitrary waist profiles in tapers are fabricated by approximating the taper diameter function to any monotonic function of the fiber length while combining a superposition of step-tapers. This method to produce the arbitrary profiles is described and a set of tapers with dissimilar transition regions are fabricated for its validation.

Published

2012

15. Production of optical notch filters with fine parameter control using regenerated fiber Bragg gratings.

Author

Marques CA, de Oliveira V, Kalinowski HJ, and Nogueira RN

Abstract

A new method to create a controlled notch filter for attenuation of signals based on regenerated fiber Bragg gratings is experimentally demonstrated. A fine adjustment of the notch depth is achieved by controlling the time of regeneration phenomenon in strongly saturated Bragg gratings written in standard ITU G.652 single-mode fiber. This method can used to produce tailored notch filters for several photonic applications, such as optical RF filtering, subcarrier processing or radio over fiber systems.

Published

2012

16. Force monitoring in a maxilla model and dentition using optical fiber Bragg gratings.

Author

Milczewski MS, da Silva JC, Martelli C, Grabarski L, Abe I, and Kalinowski HJ

Subjects

Bone and Bones physiology, Humans, Root Resorption diagnosis, Tooth physiology, Tooth Root physiology, Maxilla physiology, Optical Fibers, Orthodontic Appliances, Orthopedic Equipment

Abstract

The aim of this work is to show the possibility of using fiber optic sensors to instrument inside parts of an artificial maxilla and measure internal tension transmitted by the orthodontic and orthopedic appliances to the dentition and the adjacent bone. Bragg gratings written in a standard optical fiber were used to monitor the maxillary teeth and a multiplexed fiber was used to monitor the surface of the maxillary bone, transversally to the longest axis of the teeth. A Universal Test Machine was used to evaluate the sensitivity of the sensor to the vertical and lateral forces applied on the teeth. A wavelength shift of approximately 0.30 nm was detected when applying loads ranging from 0 to 20 N. By applying forces using the standard orthodontic appliances installed on the dentition it was possible to detect a range of forces between 0.025 N to 0.035 N during the activation of the arch wire and extra-oral forces. The use of the internal sensors in an artificial model made possible the monitoring of the resulting forces on the internal parts of the teeth and at the position where the strain takes place within the maxilla. The sensors detected that the orthodontic forces were not transmitted to the surface of the maxilla. This information is important to elucidate and to correlate undesirable effects as tooth root absorption and local pain during the orthodontic treatment.

Published

2012

17. Photo-induced gratings in thin color center layers on lithium fluoride.

Author

Bonfigli F, Vincenti MA, Almaviva S, Montereali RM, Nichelatti E, Nogueira RN, and Kalinowski HJ

Abstract

We study the recording of permanent Bragg gratings on surface-colored lithium fluoride (LiF) crystals by using the interference pattern of a continuous-wave UV argon-ion laser operating at 244 nm. Gratings with spatial periodicity ranging from 400 to 1000 nm are written by using a phase-mask interferometer and are stable for several months after the writing process. Absorption and photoluminescence spectra show the bleaching of primary F and F -aggregate laser-active color centers as a result of the process. Confocal microscopy is used to determine the pitch and the profile of the fluorescent gratings. The UV laser-induced optical bleaching in highly colored LiF ultrathin layers is responsible for the periodic spatial modulation of absorption and photoemission properties that characterize the gratings. In the colored surface layer, a reduction of as much as 50% of the initial color-center-induced refractive-index increase has been estimated in the bleached areas.

Published

2009

18. Measurement of composite shrinkage using a fibre optic Bragg grating sensor.

Author

Milczewski MS, Silva JC, Paterno AS, Kuller F, and Kalinowski HJ

Subjects

Dental Stress Analysis, Technology, Dental instrumentation, Composite Resins chemistry, Fiber Optic Technology, Technology, Dental methods

Abstract

Fibre Bragg grating is used to determine resin-based composite shrinkage. Two composite resins (Freedom from SDI and Z100 from 3M) were tested to determine the polymerization contraction behaviour. Each sample of resin was prepared with an embedded fibre Bragg grating. A LED activation unit with wavelength from 430 nm to 470 nm (Dabi Atlante) was used for resin polymerization. The wavelength position of the peak in the optical reflection spectra of the sensor was measured. The wavelength shift was related to the shrinkage deformation of the samples. Temperature and strain evolution during the curing phase of the material was monitored. The shrinkage in the longitudinal direction was 0.15 +/- 0.02% for resin Z100 (3M) and 0.06+/-0.01% for Freedom (SDI); two-thirds of shrinkage occurred after the first 50 s of illumination.

Published

2007

19. High and low spin state mixture in methemoglobin and metmyoglobin.

Author

Wajnberg E, Kalinowski HJ, and Bemski G

Subjects

Electron Spin Resonance Spectroscopy, Temperature, Hemeproteins, Methemoglobin, Metmyoglobin

Abstract

The mixture of low and high iron spin states is studied by electron spin resonance in methemoglobin and in metmyoglobin between 6K and 100K. The crystals contain iron (Fe3) exclusively in the high spin state, while powdered samples show a mixture of high and low spin iron. We detected, for the first time, the low spin state in metmyoglobin at low temperatures. The ratio of high to low spin concentrations (k-1) varies exponentially with inverse of temperature in both proteins, only the absolute value is greater in myoglobin. The slope of K-1 depends on the cooling rate and on the temperature range. The results are qualitatively explained assuming a temperature dependent distribution of crystical field around the cristal value, delta c.

Published

1985

20. Spin relaxation of iron in mixed state hemoproteins.

Author

Wajnberg E, Kalinowski HJ, Bemski G, and Helman JS

Subjects

Animals, Electron Spin Resonance Spectroscopy methods, Horses, Protein Conformation, Spectrum Analysis, Raman methods, Whales, Hemoglobins, Iron analysis, Myoglobin

Abstract

In hemoproteins the relaxation mechanism of iron is Orbach for high spin (HS) and Raman for low spin (LS). We found that in met-hemoglobin and met-myoglobin, under conditions in which the two spin states coexist, both the HS and the LS states relax to the lattice through Orbach-like processes. Alos, very short (approximately 1 ns) and temperature independent transverse relaxation times T2 were estimated. This may result from the unusual electronic structure of mixed states hemoproteins that allows thermal equilibrium and interconversion of the spin states.

Published

1986