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3,028 results on '"Fernández-Isabel A"'

1. Mask-Guided Attention U-Net for Enhanced Neonatal Brain Extraction and Image Preprocessing

Author

Jafrasteh, Bahram, Lubian-Lopez, Simon Pedro, Trimarco, Emiliano, Ruiz, Macarena Roman, Barrios, Carmen Rodriguez, Almagro, Yolanda Marin, and Benavente-Fernandez, Isabel

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Statistics - Computation
Abstract

In this study, we introduce MGA-Net, a novel mask-guided attention neural network, which extends the U-net model for precision neonatal brain imaging. MGA-Net is designed to extract the brain from other structures and reconstruct high-quality brain images. The network employs a common encoder and two decoders: one for brain mask extraction and the other for brain region reconstruction. A key feature of MGA-Net is its high-level mask-guided attention module, which leverages features from the brain mask decoder to enhance image reconstruction. To enable the same encoder and decoder to process both MRI and ultrasound (US) images, MGA-Net integrates sinusoidal positional encoding. This encoding assigns distinct positional values to MRI and US images, allowing the model to effectively learn from both modalities. Consequently, features learned from a single modality can aid in learning a modality with less available data, such as US. We extensively validated the proposed MGA-Net on diverse datasets from varied clinical settings and neonatal age groups. The metrics used for assessment included the DICE similarity coefficient, recall, and accuracy for image segmentation; structural similarity for image reconstruction; and root mean squared error for total brain volume estimation from 3D ultrasound images. Our results demonstrate that MGA-Net significantly outperforms traditional methods, offering superior performance in brain extraction and segmentation while achieving high precision in image reconstruction and volumetric analysis. Thus, MGA-Net represents a robust and effective preprocessing tool for MRI and 3D ultrasound images, marking a significant advance in neuroimaging that enhances both research and clinical diagnostics in the neonatal period and beyond.

Published
2024

2. A biobjective Home Care Scheduling Problem with dynamic breaks

Author

Méndez-Fernández, Isabel, Lorenzo-Freire, Silvia, and González-Rueda, Ángel Manuel

Subjects
Mathematics - Optimization and Control
Abstract

This paper presents a multiobjective Home Care Scheduling Problem (from now on multiobjective HCSP) related to a home care company for elderly and dependent people located in the North of Spain. In particular, a biobjective problem is considered, with the following two conflicting objectives: the welfare of users and the cost of schedules. To tackle the problem, a custom metaheuristic algorithm based on the Multi-Directional Local Search (MDLS) was designed, obtaining good approximations of the Pareto frontier in efficient computational times. This biobjective algorithm can be divided into three steps: initializing the set of non dominated solutions, generating solutions composed by different routes and obtaining non dominated solutions. The performance of the biobjective algorithm was analyzed by implementing two other well known methods in the literature: the exact method AUGMECON2, which is just an improved version of the Epsilon Constraint approach, and an NSGA-II-based algorithm. Finally, an extensive computational study was developed to compare the three methods over a set of instances from the literature, where the biobjective algorithm exhibited a superior behaviour. Furthermore, the algorithm was also applied to real instances providing solutions to the company with a good trade-off between the two objectives.

Published
2024

3. Free boundary CMC annuli in spherical and hyperbolic balls

Author

Cerezo, Alberto, Fernandez, Isabel, and Mira, Pablo

Subjects
Mathematics - Differential Geometry, 53A10, 53C42
Abstract

We construct, for any $H\in \mathbb{R}$, infinitely many free boundary annuli in geodesic balls of $\mathbb{S}^3$ with constant mean curvature $H$ and a discrete, non-rotational, symmetry group. Some of these free boundary CMC annuli are actually embedded if $H\geq 1/\sqrt{3}$. We also construct embedded, non-rotational, free boundary CMC annuli in geodesic balls of $\mathbb{H}^3$, for all values $H>1$ of the mean curvature $H$., Comment: 42 pages, 7 figures

Published
2024

6. Social Networks and Gamification in Physical Education: A Case Study

Author

Montiel-Ruiz, Francisco José, Sánchez-Vera, María-del-Mar, and Solano-Fernández, Isabel M.

Abstract

Recent research and studies on training plans in physical education agree on the need to incorporate digital technologies in teaching contexts. At the same time, the introduction of active methodologies, such as gamification, has become one of the major trends of recent years. In this paper we present the perception of teachers and students about a gamified proposal for physical education in secondary education that uses social networks as a way for communication, collaboration, and promotion of physical activity among students. "Edmodo" has been used to carry out this experience because, as a vertical social network, it has an attractive interface for students and protects their privacy by not requiring any personal data. This is a qualitative research, with a case study methodological design, which has used the focus group and group interview as data collection techniques. The sample consisted of 10 teachers, which represents all the teachers participating in the experience, and 56 students. The results show the positive assessment, both by teachers and students, of the "Edmodo" social network as a virtual teaching-learning environment for physical education in secondary education, and gamification as an active methodology. Likewise, the influence that the proposal, based on the use of digital technologies and gamification, has had on the promotion of physical activity among pupils has been high.

Published
2023

9. Optimal divisions of a convex body

Author

Cañete, Antonio, Fernández, Isabel, and Márquez, Alberto

Subjects
Mathematics - Metric Geometry, 52A20
Abstract

For a convex body $C$ in $\mathbb{R}^d$ and a division of $C$ into convex subsets $C_1,\ldots,C_n$, we can consider $max\{F(C_1),\ldots, F(C_n)\}$ (respectively, $min\{F(C_1),\ldots, F(C_n)\}$), where $F$ represents one of these classical geometric magnitudes: the diameter, the minimal width, or the inradius. In this work we study the divisions of $C$ minimizing (respectively, maximizing) the previous value, as well as other related questions., Comment: 23 pages, 18 figures

Published
2023

10. MELAGE: A purely python based Neuroimaging software (Neonatal)

Author

Jafrasteh, Bahram, López, Simón Pedro Lubián, and Fernández, Isabel Benavente

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Machine Learning, Statistics - Applications, Statistics - Computation
Abstract

MELAGE, a pioneering Python-based neuroimaging software, emerges as a versatile tool for the visualization, processing, and analysis of medical images. Initially conceived to address the unique challenges of processing 3D ultrasound and MRI brain images during the neonatal period, MELAGE exhibits remarkable adaptability, extending its utility to the domain of adult human brain imaging. At its core, MELAGE features a semi-automatic brain extraction tool empowered by a deep learning module, ensuring precise and efficient brain structure extraction from MRI and 3D Ultrasound data. Moreover, MELAGE offers a comprehensive suite of features, encompassing dynamic 3D visualization, accurate measurements, and interactive image segmentation. This transformative software holds immense promise for researchers and clinicians, offering streamlined image analysis, seamless integration with deep learning algorithms, and broad applicability in the realm of medical imaging.

Published
2023

12. Distance discourses

Author

Sánchez-García, Miguel Ángel, primary, Cutillas Fernández, Isabel María, additional, and Latorre Catalán, Marta, additional

Published
2024
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13. Advancing Robot Autonomy for Long-Horizon Tasks

Author

Fernández, Isabel M. Rayas

Subjects
Computer Science - Robotics
Abstract

Autonomous robots have real-world applications in diverse fields, such as mobile manipulation and environmental exploration, and many such tasks benefit from a hands-off approach in terms of human user involvement over a long task horizon. However, the level of autonomy achievable by a deployment is limited in part by the problem definition or task specification required by the system. Task specifications often require technical, low-level information that is unintuitive to describe and may result in generic solutions, burdening the user technically both before and after task completion. In this thesis, we aim to advance task specification abstraction toward the goal of increasing robot autonomy in real-world scenarios. We do so by tackling problems that address several different angles of this goal. First, we develop a way for the automatic discovery of optimal transition points between subtasks in the context of constrained mobile manipulation, removing the need for the human to hand-specify these in the task specification. We further propose a way to automatically describe constraints on robot motion by using demonstrated data as opposed to manually-defined constraints. Then, within the context of environmental exploration, we propose a flexible task specification framework, requiring just a set of quantiles of interest from the user that allows the robot to directly suggest locations in the environment for the user to study. We next systematically study the effect of including a robot team in the task specification and show that multirobot teams have the ability to improve performance under certain specification conditions, including enabling inter-robot communication. Finally, we propose methods for a communication protocol that autonomously selects useful but limited information to share with the other robots., Comment: PhD dissertation. 160 pages

Published
2023

15. Long-term surveillance of the feline leukemia virus in the endangered Iberian lynx (Lynx pardinus) in Andalusia, Spain (2008–2021)

Author

Nájera, Fernando, López, Guillermo, del Rey-Wamba, Tere, Malik, Rimsha A., Garrote, Germán, López-Parra, Marcos, Fernández-Pena, Leonardo, García-Tardío, Maribel, Arenas-Rojas, Rafael, Simón, Miguel A., Zorrilla, Irene, Fernández, Isabel, Alcaide, Eva M., Ruiz, Carmen, Revuelta, Luis, Salcedo, Javier, Hofmann-Lehmann, Regina, and Meli, Marina L.

Published
2024
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17. Critical phenomena in the collapse of gravitational waves

Author

Baumgarte, Thomas W., Brügmann, Bernd, Cors, Daniela, Gundlach, Carsten, Hilditch, David, Khirnov, Anton, Ledvinka, Tomáš, Renkhoff, Sarah, and Fernández, Isabel Suárez

Subjects
General Relativity and Quantum Cosmology
Abstract

Fine-tuning generic but smooth spherically-symmetric initial data for general relativity to the threshold of dynamical black hole formation creates arbitrarily large curvatures, mediated by a universal self-similar solution that acts as an intermediate attractor. For vacuum gravitational waves, however, these critical phenomena have been elusive. We present, for the first time, excellent agreement among three independent numerical simulations of this collapse. Surprisingly, we find no universality, and observe approximate self-similarity for some families of initial data but not for others., Comment: 6 pages, 3 figures

Published
2023
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18. Reducing Network Load via Message Utility Estimation for Decentralized Multirobot Teams

Author

Fernández, Isabel M. Rayas, Denniston, Christopher E., and Sukhatme, Gaurav S.

Subjects
Computer Science - Robotics, Computer Science - Multiagent Systems
Abstract

We are motivated by quantile estimation of algae concentration in lakes and how decentralized multirobot teams can effectively tackle this problem. We find that multirobot teams improve performance in this task over single robots, and communication-enabled teams further over communication-deprived teams; however, real robots are resource-constrained, and communication networks cannot support arbitrary message loads, making naive, constant information-sharing but also complex modeling and decision-making infeasible. With this in mind, we propose online, locally computable metrics for determining the utility of transmitting a given message to the other team members and a decision-theoretic approach that chooses to transmit only the most useful messages, using a decentralized and independent framework for maintaining beliefs of other teammates. We validate our approach in simulation on a real-world aquatic dataset, and we show that restricting communication via a utility estimation method based on the expected impact of a message on future teammate behavior results in a 42% decrease in network load while simultaneously decreasing quantile estimation error by 1.84%., Comment: 7 pages, 1 table, 7 figures

Published
2023

19. A Study on Multirobot Quantile Estimation in Natural Environments

Author

Fernández, Isabel M. Rayas, Denniston, Christopher E., and Sukhatme, Gaurav S.

Subjects
Computer Science - Robotics, Computer Science - Multiagent Systems
Abstract

Quantiles of a natural phenomena can provide scientists with an important understanding of different spreads of concentrations. When there are several available robots, it may be advantageous to pool resources in a collaborative way to improve performance. A multirobot team can be difficult to practically bring together and coordinate. To this end, we present a study across several axes of the impact of using multiple robots to estimate quantiles of a distribution of interest using an informative path planning formulation. We measure quantile estimation accuracy with increasing team size to understand what benefits result from a multirobot approach in a drone exploration task of analyzing the algae concentration in lakes. We additionally perform an analysis on several parameters, including the spread of robot initial positions, the planning budget, and inter-robot communication, and find that while using more robots generally results in lower estimation error, this benefit is achieved under certain conditions. We present our findings in the context of real field robotic applications and discuss the implications of the results and interesting directions for future work., Comment: 7 pages, 2 tables, 7 figures

Published
2023

20. Primary Educational Strategies in Times of Digital Curriculum Content

Author

Gallardo-Fernández, Isabel María, Monsalve Lorente, Laura, and Aguasanta-Regalado, Miriam Elizabeth

Abstract

Our contribution is based on the most noteworthy results of a research project focusing on teaching strategies at a time when the contents of the primary education curriculum are becoming digital. The expansion of the digital content industry is forcing a paradigm shift. In this paper we analyse the strategies implemented by teachers of the fifth and sixth year of primary school in relation with the digitisation of curricular content. With this aim, we planned our research following ethnographic methodology, analysing a period of two years of a case study. The main data collection tools we used are the analysis of the centre's documents and website, semi-structured interviews with different participants, and direct observation of fifth and sixth year primary education classrooms. We can infer from the analysis that technology facilitates processes of inclusion in the centre, enhancing collaborative and cooperative work. Furthermore, the use of digital devices promotes attention to diversity. The implementation of digital technologies in schools implies redefining teaching practices and teaching-learning processes. The results show that the addition of digital materials is a step forward in the centre's attention to diversity, improving accessibility and overcoming the digital gap thanks to schools' access to technological resources.

Published
2021

21. Annular solutions to the partitioning problem in a ball

Author

Cerezo, Alberto, Fernandez, Isabel, and Mira, Pablo

Subjects
Mathematics - Differential Geometry, 53A10, 53C42
Abstract

For any $n\in \mathbb{N}$, $n\geq 2$, we construct a real analytic, one-parameter family of compact embedded CMC annuli with free boundary in the unit ball $\mathbb{B}^3$ of $\mathbb{R}^3$ with a prismatic symmetry group of order $4n$. These examples give a negative answer to the uniqueness problem by Nitsche and Wente of whether any annular solution to the partitioning problem in the ball should be rotational., Comment: 22 pages, 1 figure

Published
2022

24. Rotational Elliptic Weingarten surfaces in S2xR and the Hopf problem

Author

Fernández, Isabel

Subjects
Mathematics - Differential Geometry, 53A10, 53C42, 35J15, 35J60
Abstract

We prove that any uniformly elliptic Weingarten (topological) sphere in S2xR must be congruent to the canonical example associated to the Weingarten equation. The result is obtained by proving that rotational uniformly elliptic Weingarten surfaces in S2xR have bounded second fundamental form together with a Hopf type result by J. A. G\'alvez and P. Mira.

Published
2022

26. Free boundary minimal annuli immersed in the unit ball

Author

Fernandez, Isabel, Hauswirth, Laurent, and Mira, Pablo

Subjects
Mathematics - Differential Geometry, 53A10
Abstract

We construct a family of compact free boundary minimal annuli immersed in the unit ball $\mathbb{B}^3$ of $\mathbb{R}^3$, the first such examples other than the critical catenoid. This solves a problem formulated by Nitsche in 1985. These annuli are symmetric with respect to two orthogonal planes and a finite group of rotations around an axis, and are foliated by spherical curvature lines. We show that the only free boundary minimal annulus embedded in $\mathbb{B}^3$ foliated by spherical curvature lines is the critical catenoid; in particular, the minimal annuli that we construct are not embedded. On the other hand, we also construct families of non-rotational compact embedded capillary minimal annuli in $\mathbb{B}^3$. Their existence solves in the negative a problem proposed by Wente in 1995., Comment: 39 pages, 11 figures. We added a uniqueness section, we explained in more detail several arguments, and introduced new figures. The existence theorems of version 1 remain unchanged

Published
2022

27. Evolution of Brill waves with an adaptive pseudospectral method

Author

Fernández, Isabel Suárez, Renkhoff, Sarah, Cors, Daniela, Bruegmann, Bernd, and Hilditch, David

Subjects
General Relativity and Quantum Cosmology
Abstract

As a first application of the new adaptive mesh functionality of the the pseudospectral numerical relativity code bamps, we evolve twist-free, axisymmetric gravitational waves close to the threshold of collapse. We consider six different one-parameter families of Brill wave initial data; two centered and four off-centered families. Of these the latter have not been treated before. Within each family we tune the parameter towards the threshold of black hole formation. The results for centered data agree with earlier work. Our key results are first, that close to the threshold of collapse the global peak in the curvature appears on the symmetry axis but away from the origin, indicating that in the limit they will collapse around disjoint centers. This is confirmed in three of the six families by explicitly finding apparent horizons around these large curvature peaks. Second, we find evidence neither for strict discrete-self-similarity nor for universal power-law scaling of curvature quantities. Finally, as in Ledvinka & Khirnov's recent study, we find approximately universal strong curvature features. These features appear multiple times within individual spacetimes close to the threshold and are furthermore present within all six families., Comment: 11 pages, 7 figures

Published
2022
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28. Gaussian Processes for Missing Value Imputation

Author

Jafrasteh, Bahram, Hernández-Lobato, Daniel, Lubián-López, Simón Pedro, and Benavente-Fernández, Isabel

Subjects
Statistics - Machine Learning, Computer Science - Machine Learning, Statistics - Applications, Statistics - Methodology
Abstract

Missing values are common in many real-life datasets. However, most of the current machine learning methods can not handle missing values. This means that they should be imputed beforehand. Gaussian Processes (GPs) are non-parametric models with accurate uncertainty estimates that combined with sparse approximations and stochastic variational inference scale to large data sets. Sparse GPs can be used to compute a predictive distribution for missing data. Here, we present a hierarchical composition of sparse GPs that is used to predict missing values at each dimension using all the variables from the other dimensions. We call the approach missing GP (MGP). MGP can be trained simultaneously to impute all observed missing values. Specifically, it outputs a predictive distribution for each missing value that is then used in the imputation of other missing values. We evaluate MGP in one private clinical data set and four UCI datasets with a different percentage of missing values. We compare the performance of MGP with other state-of-the-art methods for imputing missing values, including variants based on sparse GPs and deep GPs. The results obtained show a significantly better performance of MGP.

Published
2022

29. Elliptic Weingarten surfaces: singularities, rotational examples and the halfspace theorem

Author

Fernandez, Isabel and Mira, Pablo

Subjects
Mathematics - Differential Geometry, Mathematics - Analysis of PDEs, Mathematics - Classical Analysis and ODEs, 53A10, 53C42, 35J15, 35J60
Abstract

We show by phase space analysis that there are exactly 17 possible qualitative behaviors for a rotational surface in $\mathbb{R}^3$ that satisfies an arbitrary elliptic Weingarten equation $W(\kappa_1,\kappa_2)=0$, and study the singularities of such examples. As global applications of this classification, we prove a sharp halfspace theorem for general elliptic Weingarten equations of finite order, and a classification of peaked elliptic Weingarten spheres with at most two singularities. In the case that $W$ is not elliptic, we give a negative answer to a question by Yau regarding the uniqueness of rotational ellipsoids., Comment: 28 pages, 13 figures

Published
2022

32. Update of the Consensus Statement of the Spanish Society of Rheumatology on the use of biological and synthetic targeted therapies in rheumatoid arthritis

Author

Álvaro-Gracia Álvaro, José María, Díaz del Campo Fontecha, Petra, Andréu Sánchez, José Luis, Balsa Criado, Alejandro, Cáliz Cáliz, Rafael, Castrejón Fernández, Isabel, Corominas, Hèctor, Gómez Puerta, José A., Manrique Arija, Sara, Mena Vázquez, Natalia, Ortiz García, Ana, Plasencia Rodríguez, Chamaida, Silva Fernández, Lucía, and Tornero Molina, Jesús

Published
2024
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33. Actualización del Documento de Consenso de la Sociedad Española de Reumatología sobre el uso de terapias biológicas y sintéticas dirigidas en la artritis reumatoide

Author

Álvaro-Gracia Álvaro, José María, Díaz del Campo Fontecha, Petra, Andréu Sánchez, José Luis, Balsa Criado, Alejandro, Cáliz Cáliz, Rafael, Castrejón Fernández, Isabel, Corominas, Hèctor, Gómez Puerta, José A., Manrique Arija, Sara, Mena Vázquez, Natalia, Ortiz García, Ana, Plasencia Rodríguez, Chamaida, Silva Fernández, Lucía, and Tornero Molina, Jesús

Published
2024
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37. Genotoxic effects of ablative treatment with I-131 determined through the analysis of dicentric chromosomes in peripheral blood lymphocytes. Can it influence the clinical management of patients with differentiated thyroid carcinoma?

Author

Fernández Martín, Celia, Alonso Farto, Juan Carlos, Gómez Fernández, Isabel, González Ruiz, Cristina, Lozano Barriuso, Miguel Ángel, Moreno Domene, Mercedes, Orcajo Rincón, Javier, Prieto Rodriguez, María Jesús, Reguera Berenguer, Laura, Sierra Díaz, Fernando, and Soza Marañón, Álvaro

Published
2024
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39. Informative Path Planning to Estimate Quantiles for Environmental Analysis

Author

Fernández, Isabel M. Rayas, Denniston, Christopher E., Caron, David A., and Sukhatme, Gaurav S.

Subjects
Computer Science - Robotics
Abstract

Scientists interested in studying natural phenomena often take physical specimens from locations in the environment for later analysis. These analysis locations are typically specified by expert heuristics. Instead, we propose to choose locations for scientific analysis by using a robot to perform an informative path planning survey. The survey results in a list of locations that correspond to the quantile values of the phenomenon of interest. We develop a robot planner using novel objective functions to improve the estimates of the quantile values over time and an approach to find locations which correspond to the quantile values. We test our approach in four different environments using previously collected aquatic data and validate it in a field trial. Our proposed approach to estimate quantiles has a 10.2% mean reduction in median error when compared to a baseline approach which attempts to maximize spatial coverage. Additionally, when localizing these values in the environment, we see a 15.7% mean reduction in median error when using cross-entropy with our loss function compared to a baseline., Comment: 8 pages, 9 figures

Published
2022

44. Gender Equality and ICT in the Context of Formal Education: A Systematic Review

Author

Prendes-Espinosa, María-Paz, García-Tudela, Pedro-Antonio, and Solano-Fernández, Isabel-María

Abstract

This article focuses on gender equality as one of the most relevant objectives of the educational system to alleviate gender violence and combat stereotypes. At the same time, ICTs have become a very important educational tool in a digital society like the one where we live. Around these two topics we conducted this research whose purpose is, from the scientific production of the last six years, to analyze the educational practices in formal contexts that deal with gender equality and ICTs (infant, primary, secondary and higher education). The research design is a systematic review, based on the PRISMA statement and the PICoS strategy, using the 2013-2019 search period. After a screening process of a total of 90 documents, 18 papers were found that cover both study topics (gender and ICTs). A content analysis supported by semantic networks was performed, using Atlas.ti v.8. Among the main results, we highlight that most of the good practices in the different educational levels are related to the use of web 2.0. and STEM competences. Finally, we recommend the design of proposals that work on gender through ICTs, with the "smart classroom" as an interesting suggestion that is part of the emerging pedagogies.

Published
2020

45. Smart Learning Environments and Ergonomics: An Approach to the State of the Question

Author

García-Tudela, Pedro Antonio, Prendes-Espinosa, María Paz, and Solano-Fernández, Isabel María

Abstract

Educational technology evolves constantly, in line with the innovative technologies we implement, but always catering for the improvement of teaching and learning. For this, Smart Learning Environments (SLE) emerge as an optimal alternative to traditional teaching as, through ergonomics, an inclusive outlook which is bound to enhance the educational experience of every student is provided. The method utilized is based on a systematic review of the existing literature which has allowed us to analyze in depth a final sample of 19 documents after an initial review of 633, being these all the works published between 2013 and 2019.Therefore, the principal objective of the present work is carrying out an analysis of the state of the art in relation to ergonomics, inclusiveness and the SLE. The analysis of results is performed utilizing a semantic network, generated through atlas.ti. v.8, by means of which 3 categories, 10 codes and 33 quotes are extracted. Namely, the results reveal the emerging nature of the thematic line researched and how ergonomics is linked to inclusiveness and stands out as one of the most defining components when designing an educational proposal based on SLE.

Published
2020

46. Comparison of linear Brill and Teukolsky waves

Author

Fernández, Isabel Suárez, Baumgarte, Thomas W., and Hilditch, David

Subjects
General Relativity and Quantum Cosmology
Abstract

Motivated by studies of critical phenomena in the gravitational collapse of vacuum gravitational waves we compare, at the linear level, two common approaches to constructing gravitational-wave initial data. Specifically, we construct analytical, linear Brill wave initial data and compare these with Teukolsky waves in an attempt to understand the different numerical behavior observed in dynamical (nonlinear) evolutions of these two different sets of data. In general, the Brill waves indeed feature higher multipole moments than the quadrupolar Teukolsky waves, which might have provided an explanation for the differences observed in the dynamical evolution of the two types of waves. However, we also find that, for a common choice of the Brill-wave seed function, all higher-order moments vanish identically, rendering the (linear) Brill initial data surprisingly similar to the Teukolsky data for a similarly common choice of its seed function., Comment: 10 pages, 4 figures

Published
2021
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