Your search keyword '"Cambiaso P"' showing total 210 results

1. Relative evolution of eclipsing binaries: A tool to measure globular cluster ages and He abundances

Author

Cristi-Cambiaso, N., Catelan, M., Valcarce, A. A. R., and Papageorgiou, A.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

Globular clusters (GCs) are among the oldest objects in the Universe for which an age can be directly measured, thus playing an important cosmological role. This age, on the other hand, depends sensitively on the He abundance, which cannot be reliably measured from spectroscopy in GC stars. Detached eclipsing binaries (DEBs) near the turnoff (TO) point may play an important role in this regard. The aim of this study is to explore the possibility that, by working with differential measurements of stars that comprise a TO binary system, and assuming both stars have the same age and He abundance, one can achieve tighter, more robust, and less model-dependent constraints on the latter two quantities than otherwise possible by working with the absolute parameters of the stars. We compare both absolute and differential parameters of the stars in V69, a TO DEB pair in the GC 47 Tuc, with two different sets of stellar evolutionary tracks, making use of a Monte Carlo technique to estimate its He abundance and age, along with their uncertainties. We find that the relative approach can produce age and He abundance estimates that are in good agreement with those from the literature. We show that our estimates are also less model-dependent, less sensitive to [Fe/H], and more robust to inherent model systematics than those obtained with an absolute approach. On the other hand, the relative analysis finds larger statistical uncertainties than does its absolute counterpart, at least in the case of V69, where both stars have very similar properties. For binary pairs in which one of the components is less evolved than the other, the statistical uncertainty can be reduced. Our study suggests that the method proposed in this work may be useful to robustly constrain the He abundance and ages of GCs., Comment: Accepted for publication in Astronomy & Astrophysics. 14 pages, 11 figures

Published

2024

2. The surface tension of Martini 3 water mixtures

Author

Iannetti, Lorenzo, Cambiaso, Sonia, Rasera, Fabio, Giacomello, Alberto, Rossi, Giulia, Bochicchio, Davide, and Tinti, Antonio

Subjects

Condensed Matter - Soft Condensed Matter

Abstract

The Martini model, a coarse-grained forcefield for biomolecular simulations, has experienced a vast increase in popularity in the past decade. Its building-block approach balances computational efficiency with high chemical specificity, enabling the simulation of various organic and inorganic molecules. The modeling of coarse-grained beads as Lennard-Jones particles poses challenges for the accurate reproduction of liquid-vapour interfacial properties, which are crucial in various applications, especially in the case of water. The latest version of the forcefield introduces refined interaction parameters for water beads, tackling the well-known artefact of Martini water freezing at room temperature. Additionally, multiple sizes of water beads are available for simulating the solvation of small cavities, including the smallest pockets of proteins. This work focuses on studying the interfacial properties of Martini water, including surface tension, surface thickness, and bulk densities for the liquid and vapour phases. Employing the test-area method, we systematically compute the liquid-vapour surface tension across various combinations of water bead sizes and for temperatures in the range from 300 to 350 K. Our findings provide a comprehensive characterization of Martini 3.0 water intefacial properties. These findings are of interest to the Martini community as they allow users to account for the low interfacial tension of Martini water by properly adjusting observables computed via coarse-grained simulations (e.g., capillary forces) to allow for accurate matching against all-atom or experimental results. Surface tension data are also interpreted in terms of local enrichment of the various mixture components at the liquid-vapour interface by means of Gibbs' adsorption formalism, Comment: 32 pages, 9 tables, 7 figures

Published

2024

3. Local grafting heterogeneities control water intrusion and extrusion in nanopores

Author

Cambiaso, Sonia, Rasera, Fabio, Tinti, Antonio, Bochicchio, Davide, Grosu, Yaroslav, Rossi, Giulia, and Giacomello, Alberto

Published

2024

4. New polarization rotation and exact TEM wave solutions in topological insulators

Author

Filipini, Sebastián and Cambiaso, Mauro

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Optics

Abstract

In the context of $\theta$ electrodynamics we find transverse electromagnetic wave solutions forbidden in Maxwell electrodynamics. Our results attest to new evidence of the topological magnetoelectric effect in topological insulators, resulting from a polarization rotation of an external electromagnetic field. Unlike Faraday and Kerr rotations, the effect does not rely on a longitudinal magnetic field, the reflected field, or birefringence. The rotation occurs due to transversal discontinuities of the topological magnetoelectric parameter in cylindrical geometries. The dispersion relation is linear, and birefringence is absent. One solution behaves as an optical fiber confining exact transverse electromagnetic fields with omnidirectional reflectivity. These results may open new possibilities in optics and photonics by utilizing topological insulators to manipulate light., Comment: 10 pages, 3 figures

Published

2023

5. Local grafting heterogeneities control water intrusion and extrusion in nanopores

Author

Cambiaso, Sonia, Rasera, Fabio, Tinti, Antonio, Bochicchio, Davide, Grosu, Yaroslav, Rossi, Giulia, and Giacomello, Alberto

Subjects

Condensed Matter - Soft Condensed Matter

Abstract

Hydrophobic nanoporous materials can be intruded by water only by exerting an external action, typically increasing pressure. For some materials, water extrudes when the pressure is lowered again. Controlling intrusion/extrusion hysteresis is central in a number of technological applications, including materials for energy applications and for high performance liquid chromatography, and experimental techniques, as liquid porosimetry, but is still far from being understood. In this work, we consider water intrusion and extrusion in common mesoporous materials grafted with hydrophobic chains, showing that the macroscopic properties of the system are significantly affected by subnanometric heterogeneities in the grafting. For example, intrusion and extrusion pressures can vary more than 20 MPa depending on the chain length and density of the grafting. Coarse-grained molecular dynamics simulations reveal that local changes of radius and contact angle produced by grafting heterogeneities can pin the interface during intrusion or facilitate bubble nucleation in extrusion. These unprecedented microscopic insights can directly impact the design of energy materials and chromatography columns, as well as the interpretation of porosimetry results.

Published

2023

6. Rule-based Out-Of-Distribution Detection

Author

De Bernardi, Giacomo, Narteni, Sara, Cambiaso, Enrico, and Mongelli, Maurizio

Subjects

Computer Science - Artificial Intelligence

Abstract

Out-of-distribution detection is one of the most critical issue in the deployment of machine learning. The data analyst must assure that data in operation should be compliant with the training phase as well as understand if the environment has changed in a way that autonomous decisions would not be safe anymore. The method of the paper is based on eXplainable Artificial Intelligence (XAI); it takes into account different metrics to identify any resemblance between in-distribution and out of, as seen by the XAI model. The approach is non-parametric and distributional assumption free. The validation over complex scenarios (predictive maintenance, vehicle platooning, covert channels in cybersecurity) corroborates both precision in detection and evaluation of training-operation conditions proximity. Results are available via open source and open data at the following link: https://github.com/giacomo97cnr/Rule-based-ODD.

Published

2023

7. Scamming the Scammers: Using ChatGPT to Reply Mails for Wasting Time and Resources

Author

Cambiaso, Enrico and Caviglione, Luca

Subjects

Computer Science - Cryptography and Security, Computer Science - Artificial Intelligence, Computer Science - Human-Computer Interaction

Abstract

The use of Artificial Intelligence (AI) to support cybersecurity operations is now a consolidated practice, e.g., to detect malicious code or configure traffic filtering policies. The recent surge of AI, generative techniques and frameworks with efficient natural language processing capabilities dramatically magnifies the number of possible applications aimed at increasing the security of the Internet. Specifically, the ability of ChatGPT to produce textual contents while mimicking realistic human interactions can be used to mitigate the plague of emails containing scams. Therefore, this paper investigates the use of AI to engage scammers in automatized and pointless communications, with the goal of wasting both their time and resources. Preliminary results showcase that ChatGPT is able to decoy scammers, thus confirming that AI is an effective tool to counteract threats delivered via mail. In addition, we highlight the multitude of implications and open research questions to be addressed in the perspective of the ubiquitous adoption of AI.

Published

2023

8. Local grafting heterogeneities control water intrusion and extrusion in nanopores

Author

Sonia Cambiaso, Fabio Rasera, Antonio Tinti, Davide Bochicchio, Yaroslav Grosu, Giulia Rossi, and Alberto Giacomello

Subjects

Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

Abstract Hydrophobic nanoporous materials can only be intruded by water forcibly, typically increasing pressure. For some materials, water extrudes when the pressure is lowered again. Controlling intrusion/extrusion hysteresis is central in technological applications, including energy materials, high performance liquid chromatography, and liquid porosimetry, but its molecular determinants are still elusive. Here, we consider water intrusion/extrusion in mesoporous materials grafted with hydrophobic chains, showing that intrusion/extrusion is ruled by microscopic heterogeneities in the grafting. For example, intrusion/extrusion pressures can vary more than 60 MPa depending on the chain length and grafting density. Coarse-grained molecular dynamics simulations reveal that local changes in radius and contact angle produced by grafting heterogeneities can pin the water interface during intrusion or facilitate vapor bubble nucleation in extrusion. These microscopic insights can directly impact the design of energy materials and chromatography columns, as well as the interpretation of porosimetry results.

Published

2024

9. A Methodological Approach to Securing Cyber-Physical Systems for Critical Infrastructures

Author

Antonello Calabrò, Enrico Cambiaso, Manuel Cheminod, Ivan Cibrario Bertolotti, Luca Durante, Agostino Forestiero, Flavio Lombardi, Giuseppe Manco, Eda Marchetti, Albina Orlando, and Giuseppe Papuzzo

Subjects

cybersecurity, monitoring, firewalling, rule distribution, slow DoS attack, denial of service, Information technology, T58.5-58.64

Abstract

Modern ICT infrastructures, i.e., cyber-physical systems and critical infrastructures relying on interconnected IT (Information Technology)- and OT (Operational Technology)-based components and (sub-)systems, raise complex challenges in tackling security and safety issues. Nowadays, many security controls and mechanisms have been made available and exploitable to solve specific security needs, but, when dealing with very complex and multifaceted heterogeneous systems, a methodology is needed on top of the selection of each security control that will allow the designer/maintainer to drive her/his choices to build and keep the system secure as a whole, leaving the choice of the security controls to the last step of the system design/development. This paper aims at providing a comprehensive methodological approach to design and preliminarily implement an Open Platform Architecture (OPA) to secure the cyber-physical systems of critical infrastructures. Here, the Open Platform Architecture (OPA) depicts how an already existing or under-design target system (TS) can be equipped with technologies that are modern or currently under development, to monitor and timely detect possibly dangerous situations and to react in an automatic way by putting in place suitable countermeasures. A multifaceted use case (UC) that is able to show the OPA, starting from the security and safety requirements to the fully designed system, will be developed step by step to show the feasibility and the effectiveness of the proposed methodology.

Published

2024

10. Latin American HECAP Physics Briefing Book

Author

Aihara, H., Aranda, A., Toro, R. Camacho, Cambiaso, M., Carena, M., Carrera, E., D'Olivo, J. C., Gago, A., Goncalves, T., Herrera, G., Nacir, D. Lopez, Losada, M., Molina, J., Mulders, M., Restrepo, D., Rosenfeld, R., Sanchez, A., Sanchez, F., Soares-Santos, M., Subieta, M., Wahlberg, H., Ramirez, H. Yepes, and Zerwekh, A.

Subjects

High Energy Physics - Experiment, Astrophysics - Instrumentation and Methods for Astrophysics, High Energy Physics - Phenomenology, Nuclear Experiment

Abstract

For the first time the scientific community in Latin America working at the forefront of research in high energy, cosmology and astroparticle physics (HECAP) have come together to discuss and provide scientific input towards the development of a regional strategy. The present document, the Latin American HECAP Physics Briefing Book, is the result of this ambitious bottom-up effort. This report contains the work performed by the Preparatory Group to synthesize the main contributions and discussions for each of the topical working groups. This briefing book discusses the relevant emerging projects developing in the region and considers potentially impactful future initiatives and participation of the Latin American HECAP community in international flagship projects to provide the essential input for the creation of a long-term HECAP strategy in the region., Comment: 89 pages

Published

2021

11. IPPO: A Privacy-Aware Architecture for Decentralized Data-sharing

Author

Aiello, Maurizio, Cambiaso, Enrico, Canonico, Roberto, Maccari, Leonardo, Mellia, Marco, Pescapè, Antonio, and Vaccari, Ivan

Subjects

Computer Science - Networking and Internet Architecture, Computer Science - Cryptography and Security

Abstract

Online trackers personalize ads campaigns, exponentially increasing their efficacy compared to traditional channels. The downside of this is that thousands of mostly unknown systems own our profiles and violate our privacy without our awareness. IPPO turns the table and re-empower users of their data, through anonymised data publishing via a Blockchain-based Decentralized Data Marketplace. We also propose a service based on machine learning and big data analytics to automatically identify web trackers and build Privacy Labels (PLs), based on the nutrition labels concept. This paper describes the motivation, the vision, the architecture and the research challenges related to IPPO.

Published

2020

12. Clinical score for surgical treatment of acute scrotum in pediatric age

Author

Roberta Bonfiglio, Fabiola Cassaro, Chiara Cambiaso, Santi D'Antoni, Angela Simona Montalto, Salvatore Arena, Carmelo Romeo, and Pietro Impellizzeri

Subjects

acute scrotum, testicular torsion, twist score, doppler ultrasound, children, pediatric patients, Medicine, Biology (General), QH301-705.5

Abstract

Acute scrotum is a set of signs and symptoms that should lead the patient to go to a first aid center. There are different causes of these signs and symptoms, but testicular torsion is identified as the main ones and can be suspected thanks to a careful history, physical examination and testicular ultrasound. It is important to quickly differentiate the various conditions associated with acute scrotum in order to optimize surgery times and preserve testicular vitality. Often the radiological study is essential to identify the causes of acute scrotum, in particular the testicular Doppler ultrasound is sensitive and specific for testicular torsion, infact it is considered the gold standard for diagnosis. However, the radiological study can delay surgical treatment and reduce testicular vitality. So TWIST score was proposed. It is based on the identification of signs and symptoms that can lead at clinical diagnosis of testicular torsion. Our narrative of literature review analyzes TWIST score validity and shows the utility of an adequate clinical examination obtaining a diagnosis of torsion cord, reducing the costs and the time of surgical treatment resulting in a higher likelihood of preserving testicular vitality

Published

2023

13. DockerChannel: A framework for evaluating information leakages of Docker containers

Author

Enrico Cambiaso, Luca Caviglione, and Marco Zuppelli

Subjects

Container security, Cybersecurity, Data leakage, Computer software, QA76.75-76.765

Abstract

DockerChannel is a software suite for investigating possible information leakages of Docker containers. Its main scope is to support developers to fully assess the impact of the “loose” isolation of statistics provided by the container engine. It can also help researchers to investigate new attacks leveraging the orchestration of malicious containers. DockerChannel is built around an extensible Python class abstracting the creation of the covert communication mechanism and it can be used both in a general-purpose manner or “bundled” within pre-existing containers, e.g., to check leakages in real cloud-native deployments.

Published

2023

14. Long-term Complications of Gluteal Augmentation Using Aquafilling Filler: A Case Report

Author

Sarah Victoria Wünscher, Janos Cambiaso-Daniel, Alessandro Gualdi, and Thomas Rappl

Subjects

aesthetic surgery, buttock, polyacrylamide, Surgery, RD1-811

Abstract

The interest in gluteal augmentation using minimally invasive techniques has been increasing rapidly. Despite the fact that Aquafilling filler was described as biocompatible with human tissues, the number of associated complications has been rising. We present an exceptional case of a 35-year-old female patient, who suffered major long-term complications in association with Aquafilling filler injections in the gluteal region. The patient was referred to our center with signs of recurrent inflammation and severe pain focusing on the left lower extremity. A computed tomography (CT) scan showed multiple, communicating abscess formations all the way from the gluteal region to the lower leg. Therefore, an operative debridement was accomplished in the operating theater. Finally, this report emphasizes the severity of possible long-term complications when using Aquafilling filler especially in larger areas. Furthermore, the oncogenicity as well as toxicity of polyacrylamide, the core material of Aquafilling filler, remains uncertain, which is why further research is urgently required.

Published

2023

15. Topological signatures in the entanglement of a topological insulator-quantum dot hybrid

Author

L. A. Castro-Enríquez, A. Martín-Ruiz, and Mauro Cambiaso

Subjects

Medicine, Science

Abstract

Abstract In the present work, we consider a hybrid plexciton composed of a semiconductor quantum dot interacting with a topological insulator nanoparticle subject to an external magnetic field. Due to the topological magnetoelectricity of the nanoparticle, long-living plasmonic surface modes are induced, which are quantized and coupled with the quantum dot through its polarization operator. We consider the hybrid as an open quantum system, such that environment effects are accounted by the master equation in the Born–Markov approximation. Then, we apply the Peres’ positive partial transpose criterion to quantify the entanglement of the hybrid. We show that this entanglement is a direct signature of the $$\mathbb {Z}_2$$ Z 2 invariant of topological insulators.

Published

2022

16. Electromagnetic fields induced by an electric charge near a Weyl semimetal

Author

Martín-Ruiz, A., Cambiaso, M., and Urrutia, L. F.

Subjects

High Energy Physics - Theory, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Weyl semimetals (WSM) are a new class of topological materials that exhibit a bulk Hall effect due to time-reversal symmetry breaking, as well as a chiral magnetic effect due to inversion symmetry breaking. These unusual electromagnetic responses can be characterized by an axion term $\theta \textbf{E} \cdot \textbf{B}$ with space and time dependent axion angle $\theta (\textbf{r} ,t)$. In this paper we compute the electromagnetic fields produced by an electric charge near to a topological Weyl semimetal with two Weyl nodes in the bulk Brillouin zone. We find that, as in ordinary metals and dielectrics, outside the WSM the electric field is mainly determined by the optical properties of the material. The magnetic field is, on the contrary, of topological origin in nature due to the magnetoelectric effect of topological phases. We show that the magnetic field exhibits a particularly interesting behavior above the WSM: the field lines begin at the surface and then end at the surface (but not at the same point). This behavior is quite different from that produced by an electric charge near the surface of a topological insulator, where the magnetic field above the surface is generated by an image magnetic monopole beneath the surface, in which case, the magnetic field lines are straight rays. The unconventional behavior of the magnetic field is an experimentally observable signature of the anomalous Hall effect in the bulk of the WSM. We discuss a simple candidate material for testing our predictions, as well as two experimental setups which must be sensitive to the effects of the induced magnetic field., Comment: Accepted for publication in Physical Review B

Published

2018

17. The magnetoelectric coupling in Electrodynamics

Author

Martín-Ruiz, A., Cambiaso, M., and Urrutia, L. F.

Subjects

High Energy Physics - Theory, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

We explore a model akin to axion electrodynamics in which the axion field $\theta (t,\mathbf{x})$ rather than being dynamical is a piecewise constant effective parameter $\theta$ encoding the microscopic properties of the medium inasmuch as its permittivity or permeability, defining what we call a $\theta$-medium. This model describes a large class of phenomena, among which we highlight the electromagnetic response of materials with topological order, like topological insulators for example. We pursue a Green's function formulation of what amounts to typical boundary-value problems of $\theta$-media, when external sources or boundary conditions are given. As an illustration of our methods, which we have also extended to ponderable media, we interpret the constant $\theta$ as a novel topological property of vacuum, a so called $\theta$-vacuum, and restrict our discussion to the cases where the permittivity and the permeability of the media is one. In this way we concentrate upon the effects of the additional $\theta$ coupling which induce remarkable magnetoelectric effects. The issue of boundary conditions for electromagnetic radiation is crucial for the occurrence of the Casimir effect, therefore we apply the methods described above as an alternative way to approach the modifications to the Casimir effect by the inclusion of topological insulators., Comment: 22 pages, four figures, one table, A contribution to the Julian Schwinger Centennial Conference, 7-12 February 2018, Singapore, typos corrected

Published

2018

18. On the Intersection of Explainable and Reliable AI for Physical Fatigue Prediction

Author

Sara Narteni, Vanessa Orani, Enrico Cambiaso, Matteo Rucco, and Maurizio Mongelli

Subjects

Physical fatigue detection, industry 4.0, explainable AI, logic learning machine, LIME, anchors, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

In the era of Industry 4.0, the use of Artificial Intelligence (AI) is widespread in occupational settings. Since dealing with human safety, explainability and trustworthiness of AI are even more important than achieving high accuracy. eXplainable AI (XAI) is investigated in this paper to detect physical fatigue during manual material handling task simulation. Besides comparing global rule-based XAI models (LLM and DT) to black-box models (NN, SVM, XGBoost) in terms of performance, we also compare global models with local ones (LIME over XGBoost). Surprisingly, global and local approaches achieve similar conclusions, in terms of feature importance. Moreover, an expansion from local rules to global rules is designed for Anchors, by posing an appropriate optimization method (Anchors coverage is enlarged from an original low value, 11%, up to 43%). As far as trustworthiness is concerned, rule sensitivity analysis drives the identification of optimized regions in the feature space, where physical fatigue is predicted with zero statistical error. The discovery of such “non-fatigue regions” helps certifying the organizational and clinical decision making.

Published

2022

19. eXplainable and Reliable Against Adversarial Machine Learning in Data Analytics

Author

Ivan Vaccari, Alberto Carlevaro, Sara Narteni, Enrico Cambiaso, and Maurizio Mongelli

Subjects

Machine learning, detection algorithms, adversarial machine learning, reliable, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Machine learning (ML) algorithms are nowadays widely adopted in different contexts to perform autonomous decisions and predictions. Due to the high volume of data shared in the recent years, ML algorithms are more accurate and reliable since training and testing phases are more precise. An important concept to analyze when defining ML algorithms concerns adversarial machine learning attacks. These attacks aim to create manipulated datasets to mislead ML algorithm decisions. In this work, we propose new approaches able to detect and mitigate malicious adversarial machine learning attacks against a ML system. In particular, we investigate the Carlini-Wagner (CW), the fast gradient sign method (FGSM) and the Jacobian based saliency map (JSMA) attacks. The aim of this work is to exploit detection algorithms as countermeasures to these attacks. Initially, we performed some tests by using canonical ML algorithms with a hyperparameters optimization to improve metrics. Then, we adopt original reliable AI algorithms, either based on eXplainable AI (Logic Learning Machine) or Support Vector Data Description (SVDD). The obtained results show how the classical algorithms may fail to identify an adversarial attack, while the reliable AI methodologies are more prone to correctly detect a possible adversarial machine learning attack. The evaluation of the proposed methodology was carried out in terms of good balance between FPR and FNR on real world application datasets: Domain Name System (DNS) tunneling, Vehicle Platooning and Remaining Useful Life (RUL). In addition, a statistical analysis was performed to improve the robustness of the trained models, including evaluating their performance in terms of runtime and memory consumption.

Published

2022

20. Strength and Cardiorespiratory Exercise Rehabilitation for Severely Burned Patients During Intensive Care Units: A Survey of Practice.

Author

Cambiaso-Daniel, Janos, Parry, Ingrid, Rivas, Eric, Kemp-Offenberg, Jennifer, Sen, Soman, Rizzo, Julie, Serghiou, Michael, Kowalske, Karen, Wolf, Steven, Herndon, David, and Suman, Oscar

Subjects

Burn Units, Burns, California, Exercise Therapy, Female, Humans, Intensive Care Units, Male, Resistance Training, Surveys and Questionnaires, Texas

Abstract

Minimizing the deconditioning of burn injury through early rehabilitation programs (RP) in the intensive care unit (ICU) is of importance for improving the recovery time. The aim of this study was to assess current standard of care (SOC) for early ICU exercise programs in major burn centers. We designed a survey investigating exercise RP on the ICU for burn patients with >30% total burned surface area. The survey was composed of 23 questions and submitted electronically via SurveyMonkey® to six major (pediatric and adult) burn centers in Texas and California. All centers responded and reported exercise as part of their RP on the ICU. The characteristics of exercises implemented were not uniform. All centers reported to perform resistive and aerobic exercises but only 83% reported isotonic and isometric exercises. Determination of intensity of exercise varied with 50% of centers using patient tolerance and 17% using vital signs. Frequency of isotonic, isometric, aerobic, and resistive exercise was reported as daily by 80%, 80%, 83%, and 50% of centers, respectively. Duration for all types of exercises was extremely variable. Mobilization was used as a form of exercise by 100% of burn centers. Our results demonstrate that although early RP seem to be integral during burn survivors ICU stay, no SOC exists. Moreover, early RP are inconsistently administered and large variations exist in frequency, intensity, duration, and type of exercise. Thus, future prospective studies investigating the various components of exercise interventions are needed to establish a SOC and determine how and if early exercise benefits the burn survivor.

Published

2018

21. Topological signatures in the entanglement of a topological insulator-quantum dot hybrid

Author

Castro-Enríquez, L. A., Martín-Ruiz, A., and Cambiaso, Mauro

Published

2022

22. Canthopexy Evaluation: A Practical Tool for Objective Efficiency Evaluation

Author

Janos Cambiaso-Daniel, Sarah Victoria Wünscher, Dario Bertossi, and Alessandro Gualdi

Subjects

Surgery, RD1-811

Published

2023

23. Electromagnetic description of three-dimensional time-reversal invariant ponderable topological insulators

Author

Martín-Ruiz, Alberto, Cambiaso, Mauro, and Urrutia, Luis F.

Subjects

Condensed Matter - Strongly Correlated Electrons, High Energy Physics - Phenomenology, High Energy Physics - Theory

Abstract

A general technique to analyze the classical interaction between ideal topological insulators, and electromagnetic sources and fields, has been previously elaborated. Nevertheless it is not immediately applicable in the laboratory as it fails to describe real ponderable media. In this work we provide a description of real topologically insulating materials taking into account their dielectric and magnetic properties. For inhomogeneous permittivity and permeability, the problem of finding the Green's function must be solved in an ad hoc manner. Nevertheless, the physically feasible cases of piecewise constant $\varepsilon, \mu$ and $\theta$ make the problem tractable, where $\theta$ encodes the topological magnetoelectric polarizability properties of the medium. To this end we employ the Green's function method to find the fields resulting form the interaction between these materials and electromagnetic sources. Furthermore we exploit the fact that in the cases here studied, the full Green's function can be successfully found if the Green's function of the corresponding ponderable media with $\theta = 0$ is known. Our results, satisfactorily reproduce previously existing ones and also generalize some others. The method here elaborated can be exploited to determine the electromagnetic fields for more general configurations aiming to measure the interaction between real 3D topological insulators and electromagnetic fields., Comment: Accepted for publication in PRD

Published

2016

24. A Green's function approach to the Casimir effect on topological insulators with planar symmetry

Author

Martín-Ruiz, A., Cambiaso, M., and Urrutia, L. F.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, High Energy Physics - Phenomenology, High Energy Physics - Theory

Abstract

We investigate the Casimir stress on a topological insulator (TI) between two metallic plates. The TI is assumed to be joined to one of the plates and its surface in front of the other is covered by a thin magnetic layer, which turns the TI into a full insulator. We also analyze the limit where one of the plates is sent to infinity yielding the Casimir stress between a conducting plate and a TI. To this end we employ a local approach in terms of the stress-energy tensor of the system, its vacuum expectation value being subsequently evaluated in terms of the appropriate Green's function. Finally, the construction of the renormalised vacuum stress-energy tensor in the region between the plates yields the Casimir stress. Numerical results are also presented., Comment: 6 pages, 3 figures, latex epl.sty, accepted for publication in EPL

Published

2016

25. Electro and magneto statics of topological insulators as modeled by planar, spherical and cylindrical $\theta$ boundaries: Green function approach

Author

Martin-Ruiz, A., Cambiaso, M., and Urrutia, L. F.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, High Energy Physics - Phenomenology, High Energy Physics - Theory, Physics - Optics

Abstract

The Green function (GF) method is used to analyze the boundary effects produced by a Chern Simons (CS) extension to electrodynamics. We consider the electromagnetic field coupled to a $\theta$ term that is piecewise constant in different regions of space, separated by a common interface $\Sigma$, the $\theta$ boundary, model which we will refer to as $\theta$ electrodynamics ($\theta$ ED). This model provides a correct low energy effective action for describing topological insulators (TI). In this work we construct the static GF in $\theta$ ED for different geometrical configurations of the $\theta$ boundary, namely: planar, spherical and cylindrical $\theta$ interfaces. Also we adapt the standard Green theorem to include the effects of the $\theta$ boundary. These are the most important results of our work, since they allow to obtain the corresponding static electric and magnetic fields for arbitrary sources and arbitrary boundary conditions in the given geometries. Also, the method provides a well defined starting point for either analytical or numerical approximations in the cases where the exact analytical calculations are not possible. Explicit solutions for simple cases in each of the aforementioned geometries for $\theta$ boundaries are provided. The adapted Green theorem is illustrated by studying the problem of a point like electric charge interacting with a planar TI with prescribed boundary conditions. Our generalization, when particularized to specific cases, is successfully compared with previously reported results, most of which have been obtained by using the methods of images., Comment: 24 pages, 4 figures, accepted for publication in PRD. arXiv admin note: text overlap with arXiv:1511.01170

Published

2016

26. An Integrative Transcriptomics and Proteomics Approach to Identify Putative Genes Underlying Fruit Ripening in Tomato near Isogenic Lines with Long Shelf Life

Author

Melisa Di Giacomo, Tatiana Alejandra Vega, Vladimir Cambiaso, Liliana Amelia Picardi, Gustavo Rubén Rodríguez, and Javier Hernán Pereira da Costa

Subjects

S. lycopersicum, differential expression, ethylene response factor, fruit softening, cell wall remodeling, Botany, QK1-989

Abstract

The elucidation of the ripening pathways of climacteric fruits helps to reduce postharvest losses and improve fruit quality. Here, we report an integrative study on tomato ripening for two near-isogenic lines (NIL115 and NIL080) with Solanum pimpinellifolium LA0722 introgressions. A comprehensive analysis using phenotyping, molecular, transcript, and protein data were performed. Both NILs show improved fruit firmness and NIL115 also has longer shelf life compared to the cultivated parent. NIL115 differentially expressed a transcript from the APETALA2 ethylene response transcription factor family (AP2/ERF) with a potential role in fruit ripening. E4, another ERF, showed an upregulated expression in NIL115 as well as in the wild parent, and it was located physically close to a wild introgression. Other proteins whose expression levels changed significantly during ripening were identified, including an ethylene biosynthetic enzyme (ACO3) and a pectate lyase (PL) in NIL115, and an alpha-1,4 glucan phosphorylase (Pho1a) in NIL080. In this study, we provide insights into the effects of several genes underlying tomato ripening with potential impact on fruit shelf life. Data integration contributed to unraveling ripening-related genes, providing opportunities for assisted breeding.

Published

2023

27. Penile Length Assessment of Children Treated for Primary Buried Penis: Can Satisfying Penile Growth Always Be Achieved?

Author

Marco Pensabene, Maria Sergio, Fabio Baldanza, Francesco Grasso, Gregorio Serra, Benedetto Spataro, Roberta Bonfiglio, Maria Patti, Valentina Maggiore, Chiara Cambiaso, Mario Giuffré, Giovanni Corsello, Marcello Cimador, and Maria Rita Di Pace

Subjects

BP, children, micropenis, inconspicuous penis, Pediatrics, RJ1-570

Abstract

Primary buried (BP) penis is describes as a small penis caused by a penile ligaments anomaly; it is unclear if a primary BP could reach a normal length. We selected 49 patients treated at our institution between 2015 and 2020 in order to post-operatively evaluate the SPL after one year. SPL was evaluated according to the PH Tanner staging system for pre-pubertal patients according to age-normalized values. A micropenis was detected if the SPL was below 2.5 SD. A normal SPL was found in thirty-two patients, eighteen were in PH Stage 1, four were in PH Stage 2, six were in PH Stage 3, and four were in PH Stage 5. Seventeen patients showed a reduced SPL; in seven of these (four in PH Stage 4 and three in PH Stage 5), their SPL was p = 0.038). A primary BP grows normally during the pre-pubertal period, where patients frequently showed a normal SPL, but it seems to be unable to reach a normal length in the higher PH stages, where the SPL is used to detect a micropenis. We suggest that a primary BP should be considered not as a simple defect of the penile ligaments and surrounding tissues, but as an incomplete manifestation of a micropenis due to a growth slowdown of the organ in late puberty.

Published

2023

28. Green's function approach to Chern-Simons extended electrodynamics: an effective theory describing topological insulators

Author

Martín-Ruiz, A., Cambiaso, M., and Urrutia, L. F.

Subjects

Condensed Matter - Other Condensed Matter, High Energy Physics - Phenomenology, High Energy Physics - Theory

Abstract

Boundary effects produced by a Chern-Simons (CS) extension to electrodynamics are analyzed exploiting the Green's function (GF) method. We consider the electromagnetic field coupled to a $\theta$-term in a way that has been proposed to provide the correct low energy effective action for topological insulators (TI). We take the $\theta$-term to be piecewise constant in different regions of space separated by a common interface $\Sigma$, to be called the $\theta$-boundary. Features arising due to the presence of the boundary, such as magnetoelectric effects, are already known in CS extended electrodynamics and solutions for some experimental setups have been found with specific configuration of sources. In this work we illustrate a method to construct the GF that allows to solve the CS modified field equations for a given $\theta$-boundary with otherwise arbitrary configuration of sources. The method is illustrated by solving the case of a planar $\theta$-boundary but can also be applied for cylindrical and spherical geometries for which the $\theta$-boundary can be characterized by a surface where a given coordinate remains constant. The static fields of a point-like charge interacting with a planar TI, as described by a planar discontinuity in $\theta$, are calculated and successfully compared with previously reported results. We also compute the force between the charge and the $\theta$-boundary by two different methods, using the energy momentum tensor approach and the interaction energy calculated via the GF. The infinitely straight current-carrying wire is also analyzed.

Published

2015

29. Selective denervation of the corrugator supercilii muscle for the treatment of idiopatic trigeminal neuralgia purely paroxysmal distributed in the supraorbital and suprathrochlear dermatomes

Author

Alessandro Gualdi, Janos Cambiaso-Daniel, Jonatann Gatti, Ziv M. Peled, Robert Hagan, Dario Bertossi, Paul Wurzer, Lars-Peter Kamolz, Saja Scherer, and Giorgio Pietramaggiori

Subjects

Migraine disorders, Headache disorders, Quality of life, Neuralgia, Botulinum toxin type a, Medicine

Abstract

Abstract Introduction Idiopatic trigeminal neuralgia purely paroxysmal (ITNp) distributed in the supraorbital and suprathrochlear dermatomes (SSd), refractory to conventional treatments have been linked to the hyperactivity of the corrugator supercilii muscle (CSM). In these patients, the inactivation of the CSM via botulinum toxin type A (BTA) injections has been proven to be safe and effective in reducing migraine burden. The main limitation of BTA is the need of repetitive injections and relative high costs. Based on the study of the motor innervation of the CSM, we describe here an alternative approach to improve these type of migraines, based on a minimally invasive denervation of the CSM. Materials and methods Motor innervation and feasibility of selective CSM denervation was first studied on fresh frozen cadavers. Once the technique was safely established, 15 patients were enrolled. To be considered eligible, patients had to meet the following criteria: positive response to BTA treatment, migraine disability assessment score > 24, > 15 migraine days/month, no occipital/temporal trigger points and plausible reasons to discontinue BTA treatment. Pre- and post- operative migraine headache index (MHI) were compared, and complications were classified following the Clavien-Dindo classification (CDC). Results Fifteen patients (9 females and 6 males) underwent the described surgical procedure. The mean age was 41 ± 10 years. Migraine headache episodes decreased from 24 ± 4 day/month to 2 ± 2 (p

Published

2021

30. Exploiting Internet of Things Protocols for Malicious Data Exfiltration Activities

Author

Ivan Vaccari, Sara Narteni, Maurizio Aiello, Maurizio Mongelli, and Enrico Cambiaso

Subjects

Cyber-security, network security, IoT, MQTT, tunneling systems, machine learning, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Internet of Things is a widely adopted and pervasive technology, but also one of the most relevant in cyber-security, given the volume and sensitivity of shared data and the availability of affordable but insecure products. In this paper, we propose a novel cyber-threat exploiting the Message Queue Telemetry Transport (MQTT) protocol to implement a tunneling attack. In IoT networks, sensitive and critical information are exchanged between devices or external systems to perform data analysis. For this reason, a tunneling threat could be adopted by a malicious user to steal information. In this context, a tunneling system based on MQTT can be considered since this communication protocol could be allowed to pass through enterprise firewalls because it is widely adopted in this IoT world. An attacker can exploit the MQTT protocol for various purposes such as steal information or access to not-allowed websites/servers. In particular in this work, we contribute in two main points: initially we demonstrate how the proposed threat is able to encapsulate messages through the MQTT protocol, by also comparing it with other tunneling systems exploiting different communication protocols. Obtained results show that exploiting MQTT for tunneling purposes is a good choice, compared to other communication protocols, especially for payloads up to 3000 bytes. Then, we propose and validate an initial machine learning based approach able to detect the proposed MQTT tunnel, by comparing different detection algorithms tested with and without a hyperparameter optimization, in terms of accuracy, F1 score and Receiver Operating Characteristic (ROC) curve. In this case, obtained results show that some algorithms are able to identify the attack, with an accuracy exceeding 95%, while others lack of such capability.

Published

2021

31. Conchal Excision Techniques in Otoplasty: A Literature Review

Author

Adrian Georg Mogl, Alen Palackic, MD, Janos Cambiaso-Daniel, MD, Robert P. Duggan, BS, Monica Vappiani, MD, Camilla Giraudi, Edoardo Raposio, MD, PhD, Dario Bertossi, MD, and Alessandro Gualdi, MD, PhD

Subjects

Surgery, RD1-811

Abstract

Background:. Prominent ears are a common congenital deformity of the head and neck. Correcting concha hypertrophy is an important step in otoplasty. Despite the risk of postoperative deformity due to the sharp edges created by excision, removing a section of cartilage is sometimes the only method to obtain a satisfying and long-lasting result. Multiple conchal excision techniques have been reported in the literature, with significant differences in approach, outcome evaluation, and complication classification. The objective was to review cartilage excision-based otoplasty procedures to offer plastic surgeons’ insights into current data on outcomes and complications of conchal excision techniques. Methods:. We conducted a literature search through the MEDLINE, EMBASE, Scopus, and Cochrane databases. Prospective and retrospective studies on otoplasty, including revision surgeries and conchal excision techniques involving concha cartilage resection, were included. Articles with no outcomes data, review articles, case reports, expert opinion or comment, and nonclinical studies were excluded. Results:. There were a total of four manuscripts that fulfilled our criteria. Three out of four authors preferred posterior access that separates the skin excision from the cartilage excision. Following resection, cartilage edges can be approximated by placing cartilage sutures, or they can be allowed to collapse spontaneously. Although only two authors employed a systematic classification for complications, all the articles reviewed indicated a low complication rate and excellent postoperative cosmetic outcomes. Conclusion:. Although the techniques and principles stated in the literature varied to some extent, the outcomes of all studies reviewed were comparable.

Published

2022

32. Fruit quality and DNA methylation are affected by parental order in reciprocal crosses of tomato

Author

Gimenez, Magalí Diana, Vazquez, Dana Valeria, Trepat, Felipe, Cambiaso, Vladimir, and Rodríguez, Gustavo Rubén

Published

2021

33. Renormalization and asymptotic states in Lorentz-violating QFT

Author

Cambiaso, Mauro, Lehnert, Ralf, and Potting, Robertus

Subjects

High Energy Physics - Phenomenology

Abstract

Radiative corrections in quantum field theories with small departures from Lorentz symmetry alter structural aspects of the theory, in particular the definition of asymptotic single-particle states. Specifically, the mass-shell condition, the standard renormalization procedure as well as the Lehmann-Symanzik-Zimmermann reduction formalism are affected., Comment: "Presented at the Sixth Meeting on CPT and Lorentz Symmetry, Bloomington, Indiana, June 17-21, 2013"

Published

2014

34. Lorentz-violating photons with a mass term

Author

Cambiaso, Mauro, Lehnert, Ralf, and Potting, Robertus

Subjects

High Energy Physics - Phenomenology

Abstract

Perturbative calculations in quantum field theory often require the regularization of infrared divergences. In quantum electrodynamics, such a regularization can for example be accomplished by a photon mass introduced via the Stueckelberg method. The present work extends this method to the QED limit of the Lorentz- and CPT-violating Standard-Model Extension., Comment: 4 pages, presented at the Sixth Meeting on CPT and Lorentz Symmetry, Bloomington, Indiana, June 17-21, 2013

Published

2014

35. Asymptotic states and renormalization in Lorentz-violating quantum field theory

Author

Cambiaso, Mauro, Lehnert, Ralf, and Potting, Robertus

Subjects

High Energy Physics - Theory, High Energy Physics - Phenomenology

Abstract

Asymptotic single-particle states in quantum field theories with small departures from Lorentz symmetry are investigated perturbatively with focus on potential phenomenological ramifications. To this end, one-loop radiative corrections for a sample Lorentz-violating Lagrangian contained in the Standard-Model Extension (SME) are studied at linear order in Lorentz breakdown. It is found that the spinor kinetic operator, and thus the free-particle physics, is modified by Lorentz-violating operators absent from the original Lagrangian. As a consequence of this result, both the standard renormalization procedure as well as the Lehmann-Symanzik-Zimmermann reduction formalism need to be adapted. The necessary adaptations are worked out explicitly at first order in Lorentz-breaking coefficients., Comment: 26 pages two-column REVTeX, 5 figures, pole extraction clarified, matches published version

Published

2014

36. Bilateral Finger Morton Neuroma after Primary Fingertip Amputation

Author

Adrian Georg Mogl, Alessandro Gualdi, MD, PhD, Lars-Peter Kamolz, MD, MSc, Francesca Sarocchi, MD, and Janos Cambiaso-Daniel, MD

Subjects

Surgery, RD1-811

Abstract

Summary:. Morton’s neuroma (MN) is a painful, proliferative fibrosis of perineural tissue caused by pressure or recurrent irritation that was previously thought to affect only the common interdigital nerve of the foot. We present a case of a bilateral MN of both the ulnar and radial proper digital nerves of the fifth finger in a 30-year-old patient, following multiple surgeries on the aforementioned finger. The patient was referred to our center by a peripheral hospital after traumatic fingertip amputation distal the DIP joint, where the fingertip was initially simply sutured. Because of progressive neuropathic pain, he underwent two revision surgeries, in which the distal phalanx was removed, two neuromas were excised, and the nerve stumps were shortened, but both were unsuccessful. A final, more extensive revision surgery was then carried out, in which two club-like enlargements were excised and the nerve stumps coadapted to form a loop. Histopathological examination of the excised specimen revealed perineural fibrosis in the context of a Morton’s neuroma. This is, to our knowledge, the first documented case of a bilateral MN of the hand, which may have resulted from an inadequate primary finger and nerve shortening, resulting in high pressure from the surrounding soft tissue. Finally, this report emphasizes the significance of optimal treatment for finger amputation injuries, as well as the fact that for neuromas, simple nerve resection should be avoided whenever possible, because of the high recurrence rates.

Published

2022

37. The Mangled Extremity Severity Score Fails to be a Good Predictor for Secondary Limb Amputation After Trauma with Vascular Injury in Central Europe

Author

Hohenberger, Gloria Maria, Konstantiniuk, Peter, Cambiaso-Daniel, Janos, Matzi, Veronika, Schwarz, Angelika Maria, Lumenta, David Benjamin, and Cohnert, Tina Ulrike

Published

2020

38. Hacia una adecuada protección del Derecho Fundamental al Secreto e Inviolabilidad de las Comunicaciones en la Relación Laboral: análisis constitucional a la luz de las nuevas tecnologías

Author

Raúl Humberto Feijóo Cambiaso

Subjects

Secreto e inviolabilidad de las comunicaciones, correo electrónico, redes sociales, relación laboral, nuevas tecnologías, Law in general. Comparative and uniform law. Jurisprudence, K1-7720, Civil law, K623-968

Abstract

Actualmente nos encontramos inmersos en un acelerado progreso tecnológico, el cual trae consigo ventajas para el mundo de las comunicaciones, pero retos para los derechos fundamentales. Estos desafíos se evidencian en el ejemplo de las comunicaciones dentro del contexto laboral. Es tal el fenómeno que tanto la Corte Suprema como el Tribunal Constitucional peruano han puesto de manifiesto la protección del trabajador ante una eventual inspección por parte del empleador del contenido de su correo electrónico institucional, salvo que exista una investigación de carácter judicial previa. El presente artículo analiza el derecho al secreto e inviolabilidad de las comunicaciones en las relaciones laborales desde una perspectiva actual. El eje de la investigación versa sobre el tratamiento del soporte tecnológico brindado por los empleadores, en especial la regulación sobre los correos electrónicos institucionales. Para ello, el autor realiza un análisis comparado de la jurisprudencia peruana, española y del Tribunal Europeo de Derechos Humanos, y concluye explorando la problemática del control de las conversaciones en las redes sociales del trabajador realizadas mediante un soporte electrónico brindado por el empleador.

Published

2021

39. Selective denervation of the corrugator supercilii muscle for the treatment of idiopatic trigeminal neuralgia purely paroxysmal distributed in the supraorbital and suprathrochlear dermatomes

Author

Gualdi, Alessandro, Cambiaso-Daniel, Janos, Gatti, Jonatann, Peled, Ziv M., Hagan, Robert, Bertossi, Dario, Wurzer, Paul, Kamolz, Lars-Peter, Scherer, Saja, and Pietramaggiori, Giorgio

Published

2021

40. Massive photons and Lorentz violation

Author

Cambiaso, Mauro, Lehnert, Ralf, and Potting, Robertus

Subjects

High Energy Physics - Theory

Abstract

All quadratic translation- and gauge-invariant photon operators for Lorentz breakdown are included into the Stueckelberg Lagrangian for massive photons in a generalized \xi-gauge. The corresponding dispersion relation and tree-level propagator are determined exactly, and some leading-order results are derived. The question of how to include such Lorentz-violating effects into a perturbative quantum-field expansion is addressed. Applications of these results within Lorentz-breaking quantum field theories include the regularization of infrared divergences as well as the free propagation of massive vector bosons., Comment: 12 pages, 1 figure

Published

2012

41. An extended solution space for Chern-Simons gravity: the slowly rotating Kerr black hole

Author

Cambiaso, Mauro and Urrutia, Luis F.

Subjects

General Relativity and Quantum Cosmology, High Energy Physics - Theory

Abstract

In the Einstein-Cartan formulation, an iterative procedure to find solutions in non-dynamical Chern-Simons (CS) gravity in vacuum is proposed. The iterations, in powers of a small parameter $\beta$ which codifies the CS coupling, start from an arbitrary torsionless solution of Einstein equations. With Schwarzschild as the zeroth-order choice, we derive a second-order differential equation for the $\mathcal{O}(\beta)$ corrections to the metric, for an arbitrary zeroth-order embedding parameter. In particular, the slowly rotating Kerr metric is an $\mathcal{O}(\beta)$ solution in either the canonical or the axial embeddings., Comment: 5 pages, PRD accepted

Published

2010

42. Slowly rotating Kerr black hole as a solution of Einstein-Cartan gravity extended by a Chern-Simons term

Author

Cambiaso, Mauro and Urrutia, Luis F.

Subjects

General Relativity and Quantum Cosmology

Abstract

We consider the nondynamical Chern-Simons (CS) modification to General Relativity (GR) in the framework of the Einstein-Cartan formulation, as providing a way to incorporate a slowly rotating Kerr black hole in the space of solutions. Our proposal lies on considering the CS term as a source of torsion and on an iterative procedure to look for vacuum solutions of the system, by expanding the tetrad, the connection and the embedding parameter, in powers of a dimensionless small parameter $\beta$ which codifies the CS coupling. Starting from a torsionless zeroth-order vacuum solution we derive the second-order differential equation for the $\mathcal{O}(\beta)$ corrections to the metric, for an arbitrary embedding parameter. Furthermore we can show that the slowly rotating Kerr metric is an $\mathcal{O}(\beta)$ solution of the system either in the canonical or the axial embeddings., Comment: "Presented at the Fifth Meeting on CPT and Lorentz Symmetry, Bloomington, Indiana, June 28-July 2, 2010"

Published

2010

43. Bare and Induced Lorentz and CPT Invariance Violations in QED

Author

Alfaro, J., Andrianov, A. A., Cambiaso, M., Giacconi, P., and Soldati, R.

Subjects

High Energy Physics - Theory

Abstract

We consider QED in a constant axial vector background (\AE ther). Further Lorentz invariance violations (LIV) might occur owing to radiative corrections. The phenomenology of this model is studied, clarifying issues related to the various regularizations employed, with a particular emphasis on the induced photon mass. To this concern, it is shown that in the presence of LIV dimensional regularization may produce a radiatively induced finite photon mass. The possible physical role of the large momentum cutoff is elucidated and the finite temperature radiative corrections are evaluated. Finally, various experimental bounds on the parameters of the model are discussed., Comment: latex, 29 pages

Published

2009

44. From isospin generators to BRST quantization of higher spin massless fields

Author

Alfaro, J. and Cambiaso, M.

Subjects

High Energy Physics - Theory

Abstract

Motivated by construction of isospin generators in particle physics (built form the SU(2) algebra), we find an equivalence between the algebra of these generators and those of the Virasoro algebra. The form of the starting generators is fixed and in order to obtain a full equivalence we introduce a new matrix product. The Cartan structure of the starting algebra is reproduced for the Virasoro-like case and a natural BRST quantization as in String Field Theory is ``induced'' in the Fock space of the creation/annihilation operators. Following this procedure, we find a rather trivial Lie algebra form which we obtain a gauge theory of an infinity on non-interacting massless particles of arbitrary integer spin and symmetry. Among others we find the free Maxwell field, the free (linearized) gravitational field and also the axion field with their appropriate gauge transformations., Comment: latex 21 pages

Published

2008

45. Exposición fetal a bisfenol A: Presencia de bisfenol A en orina de mujeres gestantes asistidas en un hospital de la Ciudad de Buenos Aires. Año 2013.

Author

Analía Ferloni, Natalia Pereiro, Martín Cruz, Soledad Aragone, Paula Kandel Gambarte, Valeria Aliperti, Julia Constanza Saulino, Olivia Cambiaso, Marcela Liliam Vázquez, Mariana Laura Méndez, Claudio Fernando Moix, Flavia Alejandra Vidal, Raúl Uicich, Lucas Otaño, Silvana Figar, María Isabel Giménez, and Carlos Gustavo Wahren

Subjects

bisfenol A glicidil metacrilato, mujeres embarazadas, orina, disruptores endocrinos, epidemiología, salud ambiental, Medicine, Medicine (General), R5-920

Abstract

Introducción: El Bisfenol A (BPA) es un disruptor endócrino (DE) posiblemente vinculado a eventos adversos reproductivos y del desarrollo neurológico que se utiliza como aditivo en envases plásticos de alimentos y bebidas. En la población argentina no existen datos sobre niveles de BPA en orina. El objetivo del estudio fue medir la presencia de BPA en orina de embarazadas.Métodos: Estudio transversal. Detección de BPA en orina de embarazadas atendidas en el Hospital Italiano de Buenos Aires en el año 2013. La técnica utilizada fue cromatografía gaseosa asociada a espectrometría de masa con un límite de cuantificación de 2 ng/ml y de detección de 0,8 ng/ml. Se describe la proporción de mujeres con exposición al BPA con su intervalo de confianza del 95% (IC95%).Resultados: se analizaron 149 muestras de orina de embarazadas de edad promedio 32 años (Desvío Standard 5,3), el 81% (IC95% 73,9-86,9) trabaja y el 83,7% (IC95% 76,7-89,1) posee nivel universitario y/o posgrado.El 66,4% (IC95% 58,2-74,0) de las muestras urinarias presentaron BPA cuantificable, siendo la mediana de BPA de 4,3 ng / mg creatinina (Rango Intercuartilo 3,2-6,7).Conclusiones: Este estudio muestra que la exposición a BPA durante el proceso de formación embrionaria en un sector de la población de Argentina, es generalizada. En Argentina solo está regulado el uso de este DE en mamaderas.

Published

2019

46. On the consistency of Lorentz invariance violation in QED induced by fermions in constant axial-vector background

Author

Alfaro, J., Andrianov, A. A., Cambiaso, M., Giacconi, P., and Soldati, R.

Subjects

High Energy Physics - Theory, Astrophysics, General Relativity and Quantum Cosmology, High Energy Physics - Phenomenology

Abstract

We show for the first time that the induced parity--even Lorentz invariance violation can be unambiguously calculated in the physically justified and minimally broken dimensional regularization scheme, suitably tailored for a spontaneous Lorentz symmetry breaking in a field theory model. The quantization of the Lorentz invariance violating quantum electrodynamics is critically examined and shown to be consistent either for a light--like cosmic anisotropy axial--vector or for a time--like one, when in the presence of a bare photon mass., Comment: 10 pages, revised for publication in Phys.Lett. B

Published

2006

47. Three-Dimensional Evaluation of Static and Dynamic Effects of Botulinum Toxin A on Glabellar Frown Lines

Author

Rappl, Thomas, Wurzer, Paul, May, Simone, Tuca, Alexandru Cristian, Cambiaso-Daniel, Janos, Parvizi, Daryousch, Kamolz, Lars-P., and Lumenta, David B.

Published

2019

48. Official definitions for undesirable medical events: Are they correctly applied in medicine?

Author

Smolle, Christian, Sendlhofer, Gerald, Cambiaso-Daniel, Janos, Sljivich, Michaela, Friedl, Herwig, Kamolz, Lars-Peter, and Brunner, Gernot

Published

2019

49. A segregating population from a tomato second cycle hybrid allows the identification of novel QTL for fruit quality traits

Author

Cabodevila, Victoria Guadalupe, Cambiaso, Vladimir, Rodríguez, Gustavo Rubén, Picardi, Liliana Amelia, Pratta, Guillermo Raúl, Capel, Carmen, Lozano, Rafael, and Capel, Juan

Published

2021

50. Preventing MQTT Vulnerabilities Using IoT-Enabled Intrusion Detection System

Author

Muhammad Husnain, Khizar Hayat, Enrico Cambiaso, Ubaid U. Fayyaz, Maurizio Mongelli, Habiba Akram, Syed Ghazanfar Abbas, and Ghalib A. Shah

Subjects

Internet of Things, intrusion detection system, MQTT protocol, network firewall, network attacks, IoT vulnerabilities, Chemical technology, TP1-1185

Abstract

The advancement in the domain of IoT accelerated the development of new communication technologies such as the Message Queuing Telemetry Transport (MQTT) protocol. Although MQTT servers/brokers are considered the main component of all MQTT-based IoT applications, their openness makes them vulnerable to potential cyber-attacks such as DoS, DDoS, or buffer overflow. As a result of this, an efficient intrusion detection system for MQTT-based applications is still a missing piece of the IoT security context. Unfortunately, existing IDSs do not provide IoT communication protocol support such as MQTT or CoAP to validate crafted or malformed packets for protecting the protocol implementation vulnerabilities of IoT devices. In this paper, we have designed and developed an MQTT parsing engine that can be integrated with network-based IDS as an initial layer for extensive checking against IoT protocol vulnerabilities and improper usage through a rigorous validation of packet fields during the packet-parsing stage. In addition, we evaluate the performance of the proposed solution across different reported vulnerabilities. The experimental results demonstrate the effectiveness of the proposed solution for detecting and preventing the exploitation of vulnerabilities on IoT protocols.

Published

2022