Your search keyword '"Bonatto, C"' showing total 28 results

1. Trichoderma koningiopsis fermentation in airlift bioreactor for bioherbicide production.

Author

Camargo AF, Kubeneck S, Bonatto C, Bazoti SF, Nerling JP, Klein GH, Michelon W, Alves SL Jr, Mossi AJ, Fongaro G, and Treichel H

Subjects

Fermentation, Bioreactors, Glycine max metabolism, Glycine max growth & development, Trichoderma growth & development, Trichoderma metabolism

Abstract

During scaling of fermentations, choosing a bioreactor is fundamental to ensure the product's quality. This study aims to produce bioherbicides using Trichoderma koningiopsis fermentation, evaluating process parameters in an Airlift bioreactor. As a response, we quantified the production of enzymes involved in the bioherbicide activity (amylase, cellulase, laccase, lipase, and peroxidase). In addition, it evaluated the agronomic efficiency of the fermented extract optimized through tests that promoted soybean growth and nodulation, soybean seed germination, and in vitro phytopathogen control. As a result of optimizing the scaling bioprocess, it was possible to obtain an adequate fermentation condition, which, when applied to soybean seeds, had beneficial effects on their growth. It allowed the production of an enzyme cocktail. These results add a crucial biotechnological potential factor for the success of the optimized formulation in the Airlift bioreactor, in addition to presenting relevant results for the scientific community., (© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2024

2. Fungus-based bioherbicides on circular economy.

Author

Camargo AF, Bonatto C, Scapini T, Klanovicz N, Tadioto V, Cadamuro RD, Bazoti SF, Kubeneck S, Michelon W, Reichert Júnior FW, Mossi AJ, Alves Júnior SL, Fongaro G, and Treichel H

Subjects

Fungi metabolism, Fermentation, Agriculture, Herbicides pharmacology, Herbicides metabolism

Abstract

This review aimed to show that bioherbicides are possible in organic agriculture as natural compounds from fungi and metabolites produced by them. It is discussed that new formulations must be developed to improve field stability and enable the commercialization of microbial herbicides. Due to these bottlenecks, it is crucial to advance the bioprocesses behind the formulation and fermentation of bio-based herbicides, scaling up, strategies for field application, and the potential of bioherbicides in the global market. In this sense, it proposed insights for modern agriculture based on sustainable development and circular economy, precisely the formulation, scale-up, and field application of microbial bioherbicides., (© 2023. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2023

3. The bioherbicidal potential of isolated fungi cultivated in microalgal biomass.

Author

Camargo AF, Dalastra C, Ulrich A, Scapini T, Bonatto C, Klanovicz N, Michelon W, Lerin L, Júnior SLA, Mossi AJ, Tramontin MA, Bernardi O, Paudel SR, Fongaro G, and Treichel H

Subjects

Biomass, Gas Chromatography-Mass Spectrometry, Biofuels, Fungi, Plant Extracts, Microalgae

Abstract

This study evaluated the bioherbicidal potential of wild fungi grown on microalgal biomass from the digestate treatment of biogas production. Four fungal isolates were used and the extracts were evaluated for the activity of different enzymes and characterized by gas chromatography coupled with mass spectrometry. The bioherbicidal activity was assessed by application on Cucumis sativus, and the leaf damage was visually estimated. The microorganisms showed potential as agents producing an enzyme pool. The obtained fungal extracts presented different organic compounds, most acids, and when applied to Cucumis sativus, showed high levels of leaf damage (80-100 ± 3.00%, deviation relative to the observed average damage). Therefore, the microbial strains are potential biological control agents of weeds, which, together with the microalgae biomass, offer the appropriate conditions to obtain an enzyme pool of biotechnological relevance and with favorable characteristics to be explored as bioherbicides, addressing aspects within the environmental sustainability., (© 2023. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2023

4. Hydrothermal pretreatment of lignocellulosic biomass for hemicellulose recovery.

Author

Scapini T, Dos Santos MSN, Bonatto C, Wancura JHC, Mulinari J, Camargo AF, Klanovicz N, Zabot GL, Tres MV, Fongaro G, and Treichel H

Subjects

Biomass, Hydrolysis, Lignin, Polysaccharides

Abstract

The hemicellulosic fraction recovery is of interest for integrated processes in biorefineries, considering the possibility of high economic value products produced from their structural compounds of this polysaccharide. However, to perform an efficient recovery, it is necessary to use biomass fractionation techniques, and hydrothermal pretreatment is highlighted as a valuable technique in the hemicellulose recovery by applying high temperatures and pressure, causing dissolution of the structure. Considering the possibility of this pretreatment technique for current approaches to hemicellulose recovery, this article aimed to explore the relevance of hydrothermal pretreatment techniques (sub and supercritical water) as a strategy for recovering the hemicellulosic fraction from lignocellulosic biomass. Discussions about potential products to be generated, current market profile, and perspectives and challenges of applying the technique are also addressed., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

5. Uses of Bacteriophages as Bacterial Control Tools and Environmental Safety Indicators.

Author

Rogovski P, Cadamuro RD, da Silva R, de Souza EB, Bonatto C, Viancelli A, Michelon W, Elmahdy EM, Treichel H, Rodríguez-Lázaro D, and Fongaro G

Abstract

Bacteriophages are bacterial-specific viruses and the most abundant biological form on Earth. Each bacterial species possesses one or multiple bacteriophages and the specificity of infection makes them a promising alternative for bacterial control and environmental safety, as a biotechnological tool against pathogenic bacteria, including those resistant to antibiotics. This application can be either directly into foods and food-related environments as biocontrol agents of biofilm formation. In addition, bacteriophages are used for microbial source-tracking and as fecal indicators. The present review will focus on the uses of bacteriophages like bacterial control tools, environmental safety indicators as well as on their contribution to bacterial control in human, animal, and environmental health., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Rogovski, Cadamuro, da Silva, de Souza, Bonatto, Viancelli, Michelon, Elmahdy, Treichel, Rodríguez-Lázaro and Fongaro.)

Published

2021

6. Production of biofuels from soybean straw and hull hydrolysates obtained by subcritical water hydrolysis.

Author

Vedovatto F, Bonatto C, Bazoti SF, Venturin B, Alves SL Jr, Kunz A, Steinmetz RLR, Treichel H, Mazutti MA, Zabot GL, and Tres MV

Subjects

Fermentation, Hydrolysis, Water, Biofuels, Glycine max

Abstract

The objective of this study was to evaluate the ethanol production by Wickerhamomyces sp. using soybean straw and hull hydrolysates obtained by subcritical water hydrolysis and, afterward, the biogas production using the fermented hydrolysates. Ethanol was produced using the straw and hull hydrolysates diluted and supplement with glucose, reaching 5.57 ± 0.01 g/L and 6.11 ± 0.11 g/L, respectively. The fermentation in a bioreactor with changing the pH to 7.0 allowed achieving maximum ethanol production of 4.03 and 3.60 g/L for straw and hull hydrolysates at 24 h, respectively. The biogas productions obtained for the fermented hydrolysates of straw with and without changing the pH were 739 ± 37 and 652 ± 34 NmL/g VSad , respectively. The fermented hydrolysate of hull without changing the pH presented 620 ± 26 NmL/g VSad . The soybean residues produced biofuels, indicating these residues show potential as raw material for renewable energy production., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

7. Triple point of synchronization, phase singularity, and excitability along the transition between unbounded and bounded phase oscillations in a forced nonlinear oscillator.

Author

Prants WT and Bonatto C

Abstract

We report the discovery of a codimension-two phenomenon in the phase diagram of a second-order self-sustained nonlinear oscillator subject to a constant external periodic forcing, around which three regimes associated with the synchronization phenomenon exist, namely phase-locking, frequency-locking without phase-locking, and frequency-unlocking states. The triple point of synchronization arises when a saddle-node homoclinic cycle collides with the zero-amplitude state of the forced oscillator. A line on the phase diagram where limit-cycle solutions contain a phase singularity departs from the triple point, giving rise to a codimension-one transition between the regimes of frequency unlocking and frequency locking without phase locking. At the parameter values where the critical transition occurs, the forced oscillator exhibits a separatrix with a π phase jump, i.e., a particular trajectory in phase space that separates two distinct behaviors of the phase dynamics. Close to the triple point, noise induces excitable pulses where the two variants of type-I excitability, i.e., pulses with and without 2π phase slips, appear stochastically. The impacts of weak noise and some other dynamical aspects associated with the transition induced by the singular phenomenon are also discussed.

Published

2021

8. Utilization of seawater and wastewater from shrimp production in the fermentation of papaya residues to ethanol.

Author

Bonatto C, Scapini T, Zanivan J, Dalastra C, Bazoti SF, Alves S Jr, Fongaro G, de Oliveira D, and Treichel H

Subjects

Fermentation, Seawater, Vegetables, Wastewater, Carica, Ethanol

Abstract

Seawater (SW) and wastewater from shrimp production (WSP) were used as a solvent for the fermentation of papaya residues (Carica papaya) by Wickerhamomyces sp. UFFS-CE-3.1.2 and Saccharomyces cerevisiae CAT-1. For comparative purposes and evaluation of the effect of salinity, ultrapure water (UW) was used as control. Fermentative parameters were evaluated in Plackett-Burman planning to assess ethanol production's significant variables. Urea supplementation was the only variable not significant for the proposed process, suggesting that papaya residues contain all the nutrients needed for fermentation. The experiments conducted with the different water sources resulted in similar concentrations of ethanol. Maximum ethanol concentration was obtained after nine h of fermentation usingWickerhamomycessp. UFFS-CE-3.1.2 (27.31 ± 1.40 g L -1 ) and 12 h using S. cerevisiaeCAT-1 (24.53 ± 0.68 g L -1 ). This study demonstrated that SW and WSP could replace freshwater without affecting ethanol production. Papaya residues from the fruit and vegetable sectors can be considered a promising substrate source for ethanol production., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published

2021

9. A review on alternative bioprocesses for removal of emerging contaminants.

Author

Viancelli A, Michelon W, Rogovski P, Cadamuro RD, de Souza EB, Fongaro G, Camargo AF, Stefanski FS, Venturin B, Scapini T, Bonatto C, Preczeski KP, Klanovicz N, de Oliveira D, and Treichel H

Subjects

Adsorption, Bacteria, Fungi, Microalgae, Water Purification methods, Biodegradation, Environmental, Waste Disposal, Fluid methods, Wastewater chemistry, Water Pollutants, Chemical analysis

Abstract

Emerging contaminants (ECs) include endocrine-disrupting compounds, pharmaceuticals (lipid regulators, antibiotics, diuretics, non-steroid anti-inflammatory drugs, stimulant drugs, antiseptics, analgesic, beta blockers), detergents, disinfectants, and personal care products. The residues from these compounds have become a concerning because of their bioactive presence on environmental matrices, especially water bodies. The development of technologies, aiming the secure and efficient removal of these compounds from the environment or event to remove them before they achieve the environment, is necessary. In these context, the present review is about promising eco-friendly, low-cost and specially applied, including biological processes using microalgae, bacteria, enzymes produced by fungi, and adsorbent materials such as those recycled from other processes waste. The processes where revised considering the removal mechanism and the efficiency rate.

Published

2020

10. Super rogue wave generation in the linear regime.

Author

Bonatto C, Prado SD, Metz FL, Schoffen JR, Correia RRB, and Hickmann JM

Abstract

Extreme or rogue waves are large and unexpected waves appearing with higher probability than predicted by Gaussian statistics. Although their formation is explained by both linear and nonlinear wave propagation, nonlinearity has been considered a necessary ingredient to generate super rogue waves, i.e., an enhanced wave amplification, where the wave amplitudes exceed by far those of ordinary rogue waves. Here we show, experimentally and theoretically, that optical super rogue waves emerge in the simple case of linear light diffraction in one transverse dimension. The underlying physics is a long-range correlation on the random initial phases of the light waves. When subgroups of random phases appear recurrently along the spatial phase distribution, a more ordered phase structure greatly increases the probability of constructive interference to generate super rogue events (non-Gaussian statistics with superlong tails). Our results consist in a significant advance in the understanding of extreme waves formation by linear superposition of random waves, with applications in a large variety of wave systems.

Published

2020

11. Extremophile Microbial Communities and Enzymes for Bioenergetic Application Based on Multi-Omics Tools.

Author

Fongaro G, Maia GA, Rogovski P, Cadamuro RD, Lopes JC, Moreira RS, Camargo AF, Scapini T, Stefanski FS, Bonatto C, Marques Souza DS, Stoco PH, Duarte RTD, Cabral da Cruz AC, Wagner G, and Treichel H

Abstract

Genomic and proteomic advances in extremophile microorganism studies are increasingly demonstrating their ability to produce a variety of enzymes capable of converting biomass into bioenergy. Such microorganisms are found in environments with nutritional restrictions, anaerobic environments, high salinity, varying pH conditions and extreme natural environments such as hydrothermal vents, soda lakes, and Antarctic sediments. As extremophile microorganisms and their enzymes are found in widely disparate locations, they generate new possibilities and opportunities to explore biotechnological prospecting, including biofuels (biogas, hydrogen and ethanol) with an aim toward using multi-omics tools that shed light on biotechnological breakthroughs., (© 2020 Bentham Science Publishers.)

Published

2020

12. Nutritional, Energy and Sanitary Aspects of Swine Manure and Carcass Co-digestion.

Author

Tápparo DC, Rogovski P, Cadamuro RD, Marques Souza DS, Bonatto C, Frumi Camargo A, Scapini T, Stefanski F, Amaral A, Kunz A, Hernández M, Treichel H, Rodríguez-Lázaro D, and Fongaro G

Abstract

Renewable energy can assist the management of the effects of population growth and rapid economic development on the sustainability of animal husbandry. The primary aim of renewable energy is to minimize the use of fossil fuels via the creation of environmentally friendly energy products from depleted fossil fuels. Digesters that treat swine manure are extensively used in treatment systems; and inclusion of swine carcasses can increase the organic loading rate (OLR) thereby improving biogas yield and productivity on farms. However, the characteristics of the components including animal residues, proteins, lipids, remains of undigested feed items, antimicrobial drug residues, pathogenic microorganisms and nutrient contents, are complex and diverse. It is therefore necessary to manage the anaerobic process stability and digestate purification for subsequent use as fertilizer. Efficient methane recovery from residues rich in lipids is difficult because such residues are only slowly biodegradable. Pretreatment can promote solubilization of lipids and accelerate anaerobic digestion, and pretreatments can process the swine carcass before its introduction onto biodigesters. This review presents an overview of the anaerobic digestion of swine manure and carcasses. We analyze the characteristics of these residues, and we identify strategies to enhance biogas yield and process stability. We consider energy potential, co-digestion of swine manure and carcasses, physical, chemical, and biological pretreatment of biomass, sanitary aspects of swine manure and co-digestates and their recycling as fertilizers., (Copyright © 2020 Tápparo, Rogovski, Cadamuro, Marques Souza, Bonatto, Frumi Camargo, Scapini, Stefanski, Amaral, Kunz, Hernández, Treichel, Rodríguez-Lázaro and Fongaro.)

Published

2020

13. Fusarium oxysporum and Aspergillus sp. as Keratinase Producers Using Swine Hair From Agroindustrial Residues.

Author

Preczeski KP, Dalastra C, Czapela FF, Kubeneck S, Scapini T, Camargo AF, Zanivan J, Bonatto C, Stefanski FS, Venturin B, Fongaro G, and Treichel H

Abstract

Technological processes mediated by microorganisms and enzymes are promising alternatives for treatment of recalcitrant residues. Keratinases hydrolyze keratin, the primary component of some wastes generated in many industrial activities. The present study was designed to evaluate strategies for obtaining keratinases produced by fungi using submerged fermentation and two residues as substrates, chicken feathers and swine hair. Two fungi isolated from feather residues showed potential for keratinase production, Fusarium oxysporum and Aspergillus sp. These were subjected to submerged fermentation using chicken feathers and swine hair prepared in three conditions (microbial concentration reduction, sterilization and hydrogen peroxide). The residual mass was quantified and tested for keratinase production. The most potent enzymatic extract was used in the precipitation technique with salts and organic solvents. The best results of enzymatic activity were obtained using F. oxysporum , on the 6thday of fermentation, obtaining 243.25 U mL -1 using sterilized swine hair as the substrate. Aspergillus sp. showed the highest keratinolytic activity on the 9thday, 113.50 U mL -1 using feathers as the substrate. The highest degradation percentage was 59.20% (w/w) in swine hair and the precipitation technique, with relative activities close to 50%. The results are promising for the application of residues and microorganisms in biotechnological processes of economic and environmental interest., (Copyright © 2020 Preczeski, Dalastra, Czapela, Kubeneck, Scapini, Camargo, Zanivan, Bonatto, Stefanski, Venturin, Fongaro and Treichel.)

Published

2020

14. Effect of pretreatments on corn stalk chemical properties for biogas production purposes.

Author

Venturin B, Frumi Camargo A, Scapini T, Mulinari J, Bonatto C, Bazoti S, Pereira Siqueira D, Maria Colla L, Alves SL Jr, Paulo Bender J, Luís Radis Steinmetz R, Kunz A, Fongaro G, and Treichel H

Subjects

Anaerobiosis, Animals, Manure, Methane, Swine, Biofuels, Hydrogen Peroxide, Zea mays

Abstract

Different pretreatments were evaluated on corn stalk (Zea mays) applied as a lignocellulosic source in anaerobic co-digestion with swine manure, using sulfuric acid (H 2 SO 4 ) and hydrogen peroxide (H 2 O 2 ) for biogas production purposes. Using H 2 SO 4 we achieved a 75.1% removal of the hemicellulose fraction, in low acid concentrations (0.75% v.v -1 ). However, this technique inhibited the co-digestion process. Pretreatment with 12% of H 2 O 2 (pH 11.5) increased the cellulose fraction by 73.4% and reduced the lignin content by 71.6%. This pretreatment is recommended for biogas production, as it increased the final volume of biogas by 22% and reduced the digestion time by one third. So, a promising alternative was obtained in order to facilitate the anaerobic digestion of the carbohydrates present in this biomass., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

15. Bioethanol Production From Hydrolyzed Lignocellulosic After Detoxification Via Adsorption With Activated Carbon and Dried Air Stripping.

Author

Artifon W, Bonatto C, Bordin ER, Bazoti SF, Dervanoski A, Alves SL Jr, and Treichel H

Abstract

Bioethanol production has been presented as an alternative for supplying energy demand and minimizing greenhouse gases effects. However, due to abrasively conditions employed on the biomass during pretreatment and hydrolysis processes, inhibitors for fermentation phase such as acetic acid and others can be generated. Based on this problem, the aim of this work was to evaluate the adsorption of acetic acid on microporous activated carbon and investigate the stripping of the same component with dried air. For adsorption process, three concentrations of acetic acid (5, 10, and 20%) were analyzed by adsorption kinetics and adsorption isotherms (Langmuir and Freundlich models). Pseudo-second order model showed to fit better when compared to Pseudo-first order model. The Intraparticle Diffusion model presented the first phase of the adsorption as the regulating step of the adsorption process. The Langmuir model showed the best fitting, and the maximum capacity of adsorption was found as 128.66 mg.g -1 . For stripping procedure an apparatus was set in order to insert dried air by a diffusor within the solution in study. Increasing temperature showed to be determinant on augmenting acetic acid evaporation in 2.14 and 6.22 times for 40 and 60°C when comparing it to 20°C. The application of the pickling process for removal of fermentation inhibitors in sugarcane bagasse hydrolyzed allowed the production 8.3 g.L -1 of ethanol.

Published

2018

16. Hyperchaotic Dynamics for Light Polarization in a Laser Diode.

Author

Bonatto C

Abstract

It is shown that a highly randomlike behavior of light polarization states in the output of a free-running laser diode, covering the whole Poincaré sphere, arises as a result from a fully deterministic nonlinear process, which is characterized by a hyperchaotic dynamics of two polarization modes nonlinearly coupled with a semiconductor medium, inside the optical cavity. A number of statistical distributions were found to describe the deterministic data of the low-dimensional nonlinear flow, such as lognormal distribution for the light intensity, Gaussian distributions for the electric field components and electron densities, Rice and Rayleigh distributions, and Weibull and negative exponential distributions, for the modulus and intensity of the orthogonal linear components of the electric field, respectively. The presented results could be relevant for the generation of single units of compact light source devices to be used in low-dimensional optical hyperchaos-based applications.

Published

2018

17. Extreme and superextreme events in a loss-modulated CO_{2} laser: Nonlinear resonance route and precursors.

Author

Bonatto C and Endler A

Abstract

We investigate the occurrence of extreme and rare events, i.e., giant and rare light pulses, in a periodically modulated CO_{2} laser model. Due to nonlinear resonant processes, we show a scenario of interaction between chaotic bands of different orders, which may lead to the formation of extreme and rare events. We identify a crisis line in the modulation parameter space, and we show that, when the modulation amplitude increases, remaining in the vicinity of the crisis, some statistical properties of the laser pulses, such as the average and dispersion of amplitudes, do not change much, whereas the amplitude of extreme events grows enormously, giving rise to extreme events with much larger deviations than usually reported, with a significant probability of occurrence, i.e., with a long-tailed non-Gaussian distribution. We identify recurrent regular patterns, i.e., precursors, that anticipate the emergence of extreme and rare events, and we associate these regular patterns with unstable periodic orbits embedded in a chaotic attractor. We show that the precursors may or may not lead to the emergence of extreme events. Thus, we compute the probability of success or failure (false alarm) in the prediction of the extreme events, once a precursor is identified in the deterministic time series. We show that this probability depends on the accuracy with which the precursor is identified in the laser intensity time series.

Published

2017

18. Reproductive parameters of Phytoseiulus macropilis (Banks) fed with Tetranychus urticae Koch (Acari: Phytoseiidae, Tetranychidae) in laboratory.

Author

Souza-Pimentel GC, Reis PR, Bonatto CR, Alves JP, and Siqueira MF

Subjects

Animals, Female, Male, Longevity, Mites physiology, Reproduction, Tetranychidae

Abstract

Predatory mites that belong to the Phytoseiidae family are one of the main natural enemies of phytophagous mites, thus allowing for their use as a biological control. Phytoseiulus macropilis (Banks, 1904) (Acari: Phytoseiidae) is among the main species of predatory mites used for this purpose. Tetranychus urticae Koch, 1836 (Acari: Tetranychidae) is considered to be one of the most important species of mite pests and has been described as attacking over 1,100 species of plants in 140 families with economic value. The objective of the present study was to investigate, in the laboratory, the reproductive parameters of the predatory mite P. macropilis when fed T. urticae. Experiments were conducted under laboratory conditions at 25 ± 2 °C of temperature, 70 ± 10% RH and 14 hours of photophase. In addition, biological aspects were evaluated and a fertility life table was established. The results of these experiments demonstrated that the longevity of adult female was 27.5 days and adult male was 29.0 days. The population was estimated to increase approximately 27 times (Ro) in mean generation time (T), which was 17.7 days. Lastly, the mite population grew 1.2 times/day (λ) and doubled every 3.7 days (TD).

Published

2016

19. Transition from unidirectional to delayed bidirectional coupling in optically coupled semiconductor lasers.

Author

Bonatto C, Kelleher B, Huyet G, and Hegarty SP

Subjects

Lasers, Models, Theoretical, Optical Phenomena, Semiconductors

Abstract

We investigate the transition from unidirectional to delayed bidirectional coupling of semiconductor lasers. By tuning the coupling strength in one direction we show how the locking region evolves as a function of the detuning and coupling strength. We consider two representative values of the relaxation oscillation damping: one where the relaxation oscillations are very underdamped and one where they are very overdamped. Qualitatively different dynamical scenarios are shown to emerge for each case. Several features of the delayed bidirectional system can be seen as remaining from the unidirectional system while others clearly arise due to the delayed coupling and are similar to effects seen in delayed feedback configurations.

Published

2012

20. Deterministic optical rogue waves.

Author

Bonatto C, Feyereisen M, Barland S, Giudici M, Masoller C, Leite JR, and Tredicce JR

Abstract

Experimental observations of rare giant pulses or rogue waves were done in the output intensity of an optically injected semiconductor laser. The long-tailed probability distribution function of the pulse amplitude displays clear non-Gaussian features that confirm the rogue wave character of the intensity pulsations. Simulations of a simple rate equation model show good qualitative agreement with the experiments and provide a framework for understanding the observed extreme amplitude events as the result of a deterministic nonlinear process.

Published

2011

21. Excitability in optically injected semiconductor lasers: contrasting quantum-well- and quantum-dot-based devices.

Author

Kelleher B, Bonatto C, Huyet G, and Hegarty SP

Abstract

Excitability is a generic prediction for an optically injected semiconductor laser. However, the details of the phenomenon differ depending on the type of device in question. For quantum-well lasers very complicated multipulse trajectories can be found, while for quantum-dot lasers the situation is much simpler. Experimental observations show the marked differences in the pulse shapes while theoretical considerations reveal the underlying mechanism responsible for the contrast, identifying the increased stability of quantum-dot lasers to perturbations as the root., (©2011 American Physical Society)

Published

2011

22. Excitation regeneration in delay-coupled oscillators.

Author

Kelleher B, Bonatto C, Skoda P, Hegarty SP, and Huyet G

Abstract

A network of phase-coupled oscillators constitutes a system in which excitable 2pi phase slips can be induced by noise. We show that such an excitation in one of the oscillators can be regenerated by subsequent oscillators and become self-sustained for certain topologies. We focus on the simplest such topology: two mutually coupled oscillators.Our analysis is bolstered [corrected] by an experimental confirmation of the phenomenon via a pair of mutually delay coupled quantum-dot lasers. Both the intensities and phases of the laser outputs were measured confirming the interpretation.

Published

2010

23. Multistability, phase diagrams, and intransitivity in the Lorenz-84 low-order atmospheric circulation model.

Author

Freire JG, Bonatto C, DaCamara CC, and Gallas JA

Subjects

Computer Simulation, Air Movements, Algorithms, Atmosphere, Climate, Models, Theoretical, Nonlinear Dynamics, Oscillometry methods, Weather

Abstract

We report phase diagrams detailing the intransitivity observed in the climate scenarios supported by a prototype atmospheric general circulation model, namely, the Lorenz-84 low-order model. So far, this model was known to have a pair of coexisting climates described originally by Lorenz. Bifurcation analysis allows the identification of a remarkably wide parameter region where up to four climates coexist simultaneously. In this region the dynamical behavior depends crucially on subtle and minute tuning of the model parameters. This strong parameter sensitivity makes the Lorenz-84 model a promising candidate of testing ground to validate techniques of assessing the sensitivity of low-order models to perturbations of parameters., ((c) 2008 American Institute of Physics.)

Published

2008

24. Periodicity hub and nested spirals in the phase diagram of a simple resistive circuit.

Author

Bonatto C and Gallas JA

Abstract

We report the discovery of a remarkable "periodicity hub" inside the chaotic phase of an electronic circuit containing two diodes as a nonlinear resistance. The hub is a focal point from where an infinite hierarchy of nested spirals emanates. By suitably tuning two reactances simultaneously, both current and voltage may have their periodicity increased continuously without bound and without ever crossing the surrounding chaotic phase. Familiar period-adding current and voltage cascades are shown to be just restricted one-parameter slices of an exceptionally intricate and very regular onionlike parameter surface centered at the focal hub which organizes all the dynamics.

Published

2008

25. Accumulation boundaries: codimension-two accumulation of accumulations in phase diagrams of semiconductor lasers, electric circuits, atmospheric and chemical oscillators.

Author

Bonatto C and Gallas JA

Abstract

We report high-resolution phase diagrams for several familiar dynamical systems described by sets of ordinary differential equations: semiconductor lasers; electric circuits; Lorenz-84 low-order atmospheric circulation model; and Rössler and chemical oscillators. All these systems contain chaotic phases with highly complicated and interesting accumulation boundaries, curves where networks of stable islands of regular oscillations with ever-increasing periodicities accumulate systematically. The experimental exploration of such codimension-two boundaries characterized by the presence of infinite accumulation of accumulations is feasible with existing technology for some of these systems.

Published

2008

26. Chaotic phase similarities and recurrences in a damped-driven Duffing oscillator.

Author

Bonatto C, Gallas JA, and Ueda Y

Abstract

We report strong evidence of remarkably close periodic repetitions of the structuring of the parameter space of a damped-driven Duffing oscillator as the amplitude of the drive increases. Families of period-adding cascades and some intricate networks of periodic oscillations embedded in chaotic phases are also found to recur closely as the driving force grows. Such surprising regularities suggest that some hitherto unknown renormalization mechanism may be operating in higher codimension, controlling the alternation of chaos and order in parameter space of certain flows.

Published

2008

27. Accumulation horizons and period adding in optically injected semiconductor lasers.

Author

Bonatto C and Gallas JA

Abstract

We study the hierarchical structuring of islands of stable periodic oscillations inside chaotic regions in phase diagrams of single-mode semiconductor lasers with optical injection. Phase diagrams display remarkable accumulation horizons: boundaries formed by the accumulation of infinite cascades of self-similar islands of periodic solutions of ever-increasing period. Each cascade follows a specific period-adding route. The riddling of chaotic laser phases by such networks of periodic solutions may compromise applications operating with chaotic signals such as, e.g., secure communications.

Published

2007

28. Self-similarities in the frequency-amplitude space of a loss-modulated CO2 laser.

Author

Bonatto C, Garreau JC, and Gallas JA

Abstract

We show the standard two-level continuous-time model of loss-modulated CO2 lasers to display the same regular network of self-similar stability islands known so far to be typically present only in discrete-time models based on mappings. Our results suggest that the two-parameter space of class B laser models and that of a certain class of discrete mappings could be isomorphic.

Published

2005