Your search keyword '"Fonseca, José"' showing total 1,371 results

1. Hydrogen intensity mapping with MeerKAT: Preserving cosmological signal by optimising contaminant separation

Author

Carucci, Isabella P., Bernal, José L., Cunnington, Steven, Santos, Mario G., Wang, Jingying, Fonseca, José, Grainge, Keith, Irfan, Melis O., Li, Yichao, Pourtsidou, Alkistis, Spinelli, Marta, and Wolz, Laura

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

Removing contaminants is a delicate yet crucial step in neutral hydrogen (HI) intensity mapping, often considered the technique's greatest challenge. Here, we address this challenge by analysing HI intensity maps of about $100$ deg$^2$ at redshift $z\approx0.4$ collected by the MeerKAT radio telescope, a SKA Observatory (SKAO) precursor, with a combined 10.5-hour observation. Using unsupervised statistical methods, we remove the contaminating foreground emission and systematically test step-by-step common pre-processing choices to facilitate the cleaning process. We also introduce and test a novel multiscale approach, where data is redundantly decomposed into subsets referring to different spatial scales (large and small), and the cleaning procedure is performed independently. We confirm the detection of the HI cosmological signal in cross-correlation with an ancillary galactic data set without the need to correct for signal loss. In the best set-up reached, we constrain the HI distribution through the combination of its cosmic abundance ($\Omega_{\rm HI}$) and linear clustering bias ($b_{\rm HI}$) up to a cross-correlation coefficient ($r$) and measure $\Omega_{\rm HI}b_{\rm HI}r = [0.93 \pm 0.17]\,\times\,10^{-3}$ with $\approx6\sigma$ confidence. The measurement is independent of scale cuts at both edges of the probed scale range ($0.04 \lesssim k \lesssim 0.3 \,h$Mpc$^{-1}$), corroborating its robustness. Our new pipeline has successfully found an optimal compromise in separating contaminants without incurring a catastrophic signal loss, instilling more confidence in the outstanding science we can deliver with MeerKAT on the path towards HI intensity mapping surveys with the full SKAO., Comment: 24 pages (+ appendix), 24 figures. Summary of results in Table 1 and Figure 17 on page 16. Comments welcome

Published

2024

2. Gravitational waves and galaxies cross-correlations: a forecast on GW biases for future detectors

Author

Zazzera, Stefano, Fonseca, José, Baker, Tessa, and Clarkson, Chris

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Gravitational waves (GWs) have rapidly become important cosmological probes since their first detection in 2015. As the number of detected events continues to rise, upcoming instruments like the Einstein Telescope (ET) and Cosmic Explorer (CE) will observe millions of compact binary (CB) mergers. These detections, coupled with galaxy surveys by instruments such as DESI, Euclid, and the Vera Rubin Observatory, will provide unique information on the large-scale structure of the universe by cross-correlating GWs with the distribution of galaxies which host them. In this paper, we focus on how these cross-correlations constrain the clustering bias of GWs emitted by the coalescence of binary black holes (BBH). This parameter links BBHs to the underlying dark matter distribution, hence informing us how they populate galaxies. Using a multi-tracer approach, we forecast the precision of these measurements under different survey combinations. Our results indicate that current GW detectors will have limited precision, with measurement errors as high as $\sim50\%$. However, third-generation detectors like ET, when cross-correlated with LSST data, can improve clustering bias measurements to within $2.5\%$. Furthermore, we demonstrate that these cross-correlations can enable a percent-level measurement of the magnification lensing effect on GWs. Despite this, there is a degeneracy between magnification and evolution biases, which hinders the precision of both. This degeneracy is most effectively addressed by assuming knowledge of one bias or targeting an optimal redshift range of $1 < z < 2.5$. Our analysis opens new avenues for studying the distribution of BBHs and testing the nature of gravity through large-scale structure., Comment: 12 pages, 6 figures, comments welcome

Published

2024

3. MeerKLASS L-band deep-field intensity maps: entering the HI dominated regime

Author

MeerKLASS Collaboration, Barberi-Squarotti, Matilde, Bernal, José L., Bull, Philip, Camera, Stefano, Carucci, Isabella P., Chen, Zhaoting, Cunnington, Steven, Engelbrecht, Brandon N., Fonseca, José, Grainge, Keith, Irfan, Melis O., Li, Yichao, Mazumder, Aishrila, Paul, Sourabh, Pourtsidou, Alkistis, Santos, Mario G., Spinelli, Marta, Wang, Jingying, Witzemann, Amadeus, and Wolz, Laura

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

We present results from MeerKAT single-dish HI intensity maps, the final observations to be performed in L-band in the MeerKAT Large Area Synoptic Survey (MeerKLASS) campaign. The observations represent the deepest single-dish HI intensity maps to date, produced from 41 repeated scans over $236\,{\rm deg}^2$, providing 62 hours of observational data for each of the 64 dishes before flagging. By introducing an iterative self-calibration process, the estimated thermal noise of the reconstructed maps is limited to ${\sim}\,1.21\,$mK ($1.2\,\times$ the theoretical noise level). This thermal noise will be sub-dominant relative to the HI fluctuations on large scales ($k\,{\lesssim}\,0.15\,h\,\text{Mpc}^{-1}$), which demands upgrades to power spectrum analysis techniques, particularly for covariance estimation. In this work, we present the improved MeerKLASS analysis pipeline, validating it on both a suite of mock simulations and a small sample of overlapping spectroscopic galaxies from the Galaxy And Mass Assembly (GAMA) survey. Despite only overlapping with ${\sim}\,25\%$ of the MeerKLASS deep field, and a conservative approach to covariance estimation, we still obtain a ${>}\,4\,\sigma$ detection of the cross-power spectrum between the intensity maps and the 2269 galaxies at the narrow redshift range $0.39\,{<}\,z\,{<}\,0.46$. We briefly discuss the HI auto-power spectrum from this data, the detection of which will be the focus of follow-up work. For the first time with MeerKAT single-dish intensity maps, we also present evidence of HI emission from stacking the maps onto the positions of the GAMA galaxies., Comment: 30 pages, 27 figures. See Fig.14 and 15 for auto-HI and HI-galaxy cross power spectra. Fig 19 and 20 for stacking detections. Accepted to MNRAS

Published

2024

4. Squeezing information from radio surveys to probe the primordial Universe

Author

Karagiannis, Dionysios, Maartens, Roy, Saito, Shun, Fonseca, José, Camera, Stefano, and Clarkson, Chris

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

A major goal of cosmology is to understand the nature of the field(s) which drove primordial Inflation. Through future observations, the statistics of large-scale structure will allow us to probe primordial non-Gaussianity of the curvature perturbation at the end of Inflation. We show how a new correlation statistic can significantly improve these constraints over conventional methods. Next-generation radio telescope arrays are under construction which will map the density field of neutral hydrogen to high redshifts. These telescopes can operate as an interferometer, able to probe small scales, or as a collection of single dishes, combining signals to map the large scales. We show how to fuse these these operating modes in order to measure the squeezed bispectrum with higher precision and greater economy. This leads to constraints on primordial non-Gaussianity that will improve on measurements by Planck, and out-perform other surveys such as Euclid. We forecast that $\sigma(f_{\mathrm{NL}}^{\mathrm{loc}})\sim 3$, achieved by using a small subset, $\mathcal{O}(10^2-10^3)$, of the total number of accessible triangles. The proposed method can be used for any signal that peaks in squeezed configurations., Comment: 13 pages, 6 figures

Published

2024

5. Radio Frequency Interference from Radio Navigation Satellite Systems: simulations and comparison to MeerKAT single-dish data

Author

Engelbrecht, Brandon, Santos, Mario G., Fonseca, José, Li, Yichao, Wang, Jingying, Irfan, Melis O., Harper, Stuart E., Grainge, Keith, Bull, Philip, Carucci, Isabella P., Cunnington, Steven, Pourtsidou, Alkistis, Spinelli, Marta, and Wolz, Laura

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Radio Frequency Interference (RFI) is emitted from various sources, terrestrial or orbital, and create a nuisance for ground-based 21cm experiments. In particular, single-dish 21cm intensity mapping experiments will be highly susceptible to contamination from these sources due to its wide primary beam and sensitivity. This work aims to simulate the contamination effects emitted from orbital sources in the Radio Navigational Satellite System within the 1100-1350 MHz frequency. This simulation can be split into two parts: (I) satellite positioning, emission power, and beam response on the telescope and (II) fitting of the satellite signal to data in order to improve the original model. We use previously observed single dish MeerKAT L-band data which needs to be specially calibrated to include data contaminated by satellite-based RFI. We find that due to non-linearity effects, it becomes non-trivial to fit the satellite power. However, when masking regions where this non-linearity is problematic, we can recreate the satellite contamination with high accuracy around its peak frequencies. The simulation can predict satellite movements and signal for past and future observations, which can help in RFI avoidance and testing novel cleaning methods. The predicted signal from simulations sits below the noise in the target cosmology window for the L-band (970 - 1015 MHz) making it difficult to confirm any out-of-band emission from satellites. However, a power spectrum analysis shows that such signal can still contaminate the 21cm power spectrum at these frequencies. In our simulations, this contamination overwhelms the auto-power spectrum but still allows for a clean detection of the signal in cross-correlations with mild foreground cleaning. Whether such contamination does exist one will require further characterization of the satellite signals far away from their peak frequencies., Comment: 20 pages, 27 figures, 4 tables, Comments welcome

Published

2024

6. Magnification and evolution bias of transient sources: GWs and SNIa

Author

Zazzera, Stefano, Fonseca, José, Baker, Tessa, and Clarkson, Chris

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Third-generation gravitational wave (GW) observatories such as the Einstein Telescope and Cosmic Explorer, together with the LSST survey at the Vera Rubin Observatory, will yield an abundance of extra-galactic transient objects. This opens the exciting possibility of using GW sources and Supernovae Type Ia (SNIa) as luminosity distance tracers of large-scale structure for the first time. The large volumes accessible to these surveys imply that we may need to include relativistic corrections, such as lensing and Doppler magnification. However, the amplitude of these effects depends on the magnification and evolution biases of the transient sources, which are not yet understood. In this paper we develop comprehensive frameworks to address and model these biases for both populations of transient objects; in particular, we define how to compute these biases for GW sources. We then analyse the impact of magnification and evolution biases on the relativistic corrections and on the angular power spectrum of these sources. We show that correct modelling and implementation of these biases is crucial for measuring the cross-correlations of transient sources at higher redshifts., Comment: 28 pages, 14 figures, 4 tables, comments welcome

Published

2023

7. Dietary niche partitioning of three Sky Island Sceloporus lizards as revealed through DNA metabarcoding.

Author

Westeen, Erin, Martínez-Fonseca, José, dOrgeix, Christian, Walker, Faith, Sanchez, Daniel, and Wang, Ian

Subjects

biotic interactions, competition, resource use, species coexistence, spiny lizards

Abstract

Lizard diets are highly diverse and have contributed to the diversification, biogeographical distributions, and evolution of novel traits across this global radiation. Many parts of a lizards ecology-including habitat preferences, foraging modes, predation risks, interspecific competition, and thermal constraints, among others-interact to shape diets, and dietary niche partitioning simultaneously contributes to co-occurrence within communities. We used DNA metabarcoding of fecal samples to identify prey items in the diets of three sympatric Sceloporus lizards in the Madrean Sky Islands of Arizona, USA. We found evidence for dietary niche partitioning between interacting species concomitant with their respective ecologies. We also compared diet composition between populations to understand how conserved or plastic species diets are between different environments. Our findings suggest that habitat generalists are also diet generalists in this system, while the same may be true for specialists. The identification of prey items to much lower taxonomic levels than previously documented further reveals hidden diversity in the diets of these species and underscores the utility of metabarcoding for understanding the full complexity of lizard diets.

Published

2023

8. Multi-tracer power spectra and bispectra: Formalism

Author

Karagiannis, Dionysios, Maartens, Roy, Fonseca, José, Camera, Stefano, and Clarkson, Chris

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

The power spectrum and bispectrum of dark matter tracers are key and complementary probes of the Universe. Next-generation surveys will deliver good measurements of the bispectrum, opening the door to improved cosmological constraints and the breaking of parameter degeneracies, from the combination of the power spectrum and bispectrum. Multi-tracer power spectra have been used to suppress cosmic variance and mitigate the effects of nuisance parameters and systematics. We present a bispectrum multi-tracer formalism that can be applied to next-generation survey data. Then we perform a simple Fisher analysis to illustrate qualitatively the improved precision on primordial non-Gaussianity that is expected to come from the bispectrum multi-tracer. In addition, we investigate the parametric dependence of conditional errors from multi-tracer power spectra and multi-tracer bispectra, on the differences between the biases and the number densities of two tracers. Our results suggest that optimal constraints arise from maximising the ratio of number densities, the difference between the linear biases, the difference between the quadratic biases, and the difference between the products $b_1\,b_\Phi$ for each tracer, where $b_\Phi$ is the bias for the primordial potential., Comment: 30 pages, 7 figures, JCAP version

Published

2023

9. The observed number counts in luminosity distance space

Author

Fonseca, José, Zazzera, Stefano, Baker, Tessa, and Clarkson, Chris

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Next generation surveys will provide us with an unprecedented number of detections of supernovae Type Ia and gravitational wave merger events. Cross-correlations of such objects offer novel and powerful insights into the large-scale distribution of matter in the universe. Both of these sources carry information on their luminosity distance, but remain uninformative about their redshifts; hence their clustering analyses and cross-correlations need to be carried out in luminosity distance space, as opposed to redshift space. In this paper, we calculate the full expression for the number count fluctuation in terms of a perturbation to the observed luminosity distance. We find the expression to differ significantly from the one commonly used in redshift space. Furthermore, we present a comparison of the number count angular power spectra between luminosity distance and redshift spaces. We see a wide divergence between the two at large scales, and we note that lensing is the main contribution to such differences. On such scales and at higher redshifts the difference between the angular power spectra in luminosity distance and redshift spaces can be roughly 50$\%$. We also investigate cross-correlating different redshift bins using different tracers, i.e. one in luminosity distance space and one in redshift, simulating the cross-correlation angular power spectrum between background gravitational waves/supernovae and foreground galaxies. Finally, we show that in a cosmic variance limited survey, the relativistic corrections to the density-only term ought to be included., Comment: 34 pages, 9 figures, 1 table. Agrees with published version

Published

2023

10. Long-term outcomes after AKI in hospitalized patients with COVID-19

Author

Marques da Silva, Bernardo, Gameiro, Joana, Lei Teixeira, Joana, Costa, Cláudia, Branco, Carolina, Oliveira, João, Bernardo, João, Marques, Filipe, Agapito Fonseca, José, and Lopes, José António

Published

2025

11. HI intensity mapping with MeerKAT: power spectrum detection in cross-correlation with WiggleZ galaxies

Author

Cunnington, Steven, Li, Yichao, Santos, Mario G., Wang, Jingying, Carucci, Isabella P., Irfan, Melis O., Pourtsidou, Alkistis, Spinelli, Marta, Wolz, Laura, Soares, Paula S., Blake, Chris, Bull, Philip, Engelbrecht, Brandon, Fonseca, José, Grainge, Keith, and Ma, Yin-Zhe

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We present a detection of correlated clustering between MeerKAT radio intensity maps and galaxies from the WiggleZ Dark Energy Survey. We find a $7.7\sigma$ detection of the cross-correlation power spectrum, the amplitude of which is proportional to the product of the HI density fraction ($\Omega_{\rm HI}$), HI bias ($b_{\rm HI}$) and the cross-correlation coefficient ($r$). We therefore obtain the constraint $\Omega_{\rm HI} b_{\rm HI} r\,{=}\,[0.86\,{\pm}\,0.10\,({\rm stat})\,{\pm}\,0.12\,({\rm sys})]\,{\times}\,10^{-3}$, at an effective scale of $k_{\rm eff}\,{\sim}\,0.13\,h\,{\rm Mpc}^{-1}$. The intensity maps were obtained from a pilot survey with the MeerKAT telescope, a 64-dish pathfinder array to the SKA Observatory (SKAO). The data were collected from 10.5 hours of observations using MeerKAT's L-band receivers over six nights covering the 11hr field of WiggleZ, in the frequency range $1015-973\,{\rm MHz}$ (0.400$\,{<}\,z\,{<}\,$0.459 in redshift). This detection is the first practical demonstration of the multi-dish auto-correlation intensity mapping technique for cosmology. This marks an important milestone in the roadmap for the cosmology science case with the full SKAO., Comment: 11 pages, 7 figures. See Fig.5 for the main result, showing the cross-power spectrum between MeerKAT and WiggleZ, revealing the 7.7\sigma detection. v2 is the version accepted for publication by MNRAS. The main changes from v1 were in introducing the radio intensity mapping data

Published

2022

12. The impact of inaccurate property data in process modelling

Author

Fonseca, José M.S. and Francisco Casal, María

Published

2025

13. A set of principles and practical suggestions for equitable fieldwork in biology.

Author

Ramírez-Castañeda, Valeria, Westeen, Erin P, Frederick, Jeffrey, Amini, Sina, Wait, Daniel R, Achmadi, Anang S, Andayani, Noviar, Arida, Evy, Arifin, Umilaela, Bernal, Moisés A, Bonaccorso, Elisa, Bonachita Sanguila, Marites, Brown, Rafe M, Che, Jing, Condori, F Peter, Hartiningtias, Diny, Hiller, Anna E, Iskandar, Djoko T, Jiménez, Rosa Alicia, Khelifa, Rassim, Márquez, Roberto, Martínez-Fonseca, José G, Parra, Juan L, Peñalba, Joshua V, Pinto-García, Lina, Razafindratsima, Onja H, Ron, Santiago R, Souza, Sara, Supriatna, Jatna, Bowie, Rauri CK, Cicero, Carla, McGuire, Jimmy A, and Tarvin, Rebecca D

Subjects

Humans, Biology, Bioethical Issues, collections, diversity, inclusion, natural history, safety

Abstract

Field biology is an area of research that involves working directly with living organisms in situ through a practice known as "fieldwork." Conducting fieldwork often requires complex logistical planning within multiregional or multinational teams, interacting with local communities at field sites, and collaborative research led by one or a few of the core team members. However, existing power imbalances stemming from geopolitical history, discrimination, and professional position, among other factors, perpetuate inequities when conducting these research endeavors. After reflecting on our own research programs, we propose four general principles to guide equitable, inclusive, ethical, and safe practices in field biology: be collaborative, be respectful, be legal, and be safe. Although many biologists already structure their field programs around these principles or similar values, executing equitable research practices can prove challenging and requires careful consideration, especially by those in positions with relatively greater privilege. Based on experiences and input from a diverse group of global collaborators, we provide suggestions for action-oriented approaches to make field biology more equitable, with particular attention to how those with greater privilege can contribute. While we acknowledge that not all suggestions will be applicable to every institution or program, we hope that they will generate discussions and provide a baseline for training in proactive, equitable fieldwork practices.

Published

2022

14. Multi-wavelength spectroscopic probes: biases from neglecting light-cone effects

Author

Viljoen, Jan-Albert, Fonseca, José, and Maartens, Roy

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Next-generation cosmological surveys will observe larger cosmic volumes than ever before, enabling us to access information on the primordial Universe, as well as on relativistic effects. In a companion paper, we applied a Fisher analysis to forecast the expected precision on $f_{\rm NL}$ and the detectability of the lensing magnification and Doppler contributions to the power spectrum. Here we assess the bias on the best-fit values of $f_{\rm NL}$ and other parameters, from neglecting these light-cone effects. We consider forthcoming 21cm intensity mapping surveys (SKAO) and optical galaxy surveys (DESI and Euclid), both individually and combined together. We conclude that lensing magnification at higher redshifts must be included in the modelling of spectroscopic surveys. If lensing is neglected in the analysis, this produces a bias of more than 1$\sigma$ - not only on $f_{\rm NL}$, but also on the standard cosmological parameters., Comment: Version accepted by JCAP

Published

2021

15. Multi-wavelength spectroscopic probes: prospects for primordial non-Gaussianity and relativistic effects

Author

Viljoen, Jan-Albert, Fonseca, José, and Maartens, Roy

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Next-generation cosmological surveys will observe larger cosmic volumes than ever before, enabling us to access information on the primordial Universe, as well as on relativistic effects. We consider forthcoming 21cm intensity mapping surveys (SKAO) and optical galaxy surveys (DESI and Euclid), combining the information via multi-tracer cross-correlations that suppress cosmic variance on ultra-large scales. In order to fully incorporate wide-angle effects and redshift-bin cross-correlations, together with lensing magnification and other relativistic effects, we use the angular power spectra, $C_\ell(z_i,z_j)$. Applying a Fisher analysis, we forecast the expected precision on $f_{\rm NL}$ and the detectability of lensing and other relativistic effects. We find that the full combination of two pairs of 21cm and galaxy surveys, one pair at low redshift and one at high redshift, could deliver $\sigma(f_{\rm NL})\sim 1.5$, detect the Doppler effect with a signal-to-noise ratio $\sim$8 and measure the lensing convergence contribution at $\sim$2\% precision. In a companion paper, we show that the best-fit values of $f_{\rm NL}$ and of standard cosmological parameters are significantly biased if the lensing contribution neglected., Comment: 23 pages, 7 figures, 4 tables. Improved analysis, main results unchanged. Version accepted by JCAP

Published

2021

16. Magnification and evolution biases in large-scale structure surveys

Author

Maartens, Roy, Fonseca, José, Camera, Stefano, Jolicoeur, Sheean, Viljoen, Jan-Albert, and Clarkson, Chris

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Measurements of galaxy clustering in upcoming surveys such as those planned for the Euclid and Roman satellites, and the SKA Observatory, will be sensitive to distortions from lensing magnification and Doppler effects, beyond the standard redshift-space distortions. The amplitude of these contributions depends sensitively on magnification bias and evolution bias in the galaxy number density. Magnification bias quantifies the change in the observed number of galaxies gained or lost by lensing magnification, while evolution bias quantifies the physical change in the galaxy number density relative to the conserved case. These biases are given by derivatives of the number density, and consequently are very sensitive to the form of the luminosity function. We give a careful derivation of the magnification and evolution biases, clarifying a number of results in the literature. We then examine the biases for a variety of surveys, encompassing galaxy surveys and line intensity mapping at radio and optical/near-infrared wavelengths., Comment: Typo corrected in equation (A.10)

Published

2021

17. SKAO HI Intensity Mapping: Blind Foreground Subtraction Challenge

Author

Spinelli, Marta, Carucci, Isabella P., Cunnington, Steven, Harper, Stuart E., Irfan, Melis O., Fonseca, José, Pourtsidou, Alkistis, and Wolz, Laura

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Neutral Hydrogen Intensity Mapping (HI IM) surveys will be a powerful new probe of cosmology. However, strong astrophysical foregrounds contaminate the signal and their coupling with instrumental systematics further increases the data cleaning complexity. In this work, we simulate a realistic single-dish HI IM survey of a $5000$~deg$^2$ patch in the $950 - 1400$ MHz range, with both the MID telescope of the SKA Observatory (SKAO) and MeerKAT, its precursor. We include a state-of-the-art HI simulations and explore different foreground models and instrumental effects such as non-homogeneous thermal noise and beam side-lobes. We perform the first Blind Foreground Subtraction Challenge for HI IM on these synthetic data-cubes, aiming to characterise the performance of available foreground cleaning methods with no prior knowledge of the sky components and noise level. Nine foreground cleaning pipelines joined the Challenge, based on statistical source separation algorithms, blind polynomial fitting, and an astrophysical-informed parametric fit to foregrounds. We devise metrics to compare the pipeline performances quantitatively. In general, they can recover the input maps' 2-point statistics within 20 per cent in the range of scales least affected by the telescope beam. However, spurious artefacts appear in the cleaned maps due to interactions between the foreground structure and the beam side-lobes. We conclude that it is fundamental to develop accurate beam deconvolution algorithms and test data post-processing steps carefully before cleaning. This study was performed as part of SKAO preparatory work by the HI IM Focus Group of the SKA Cosmology Science Working Group., Comment: Accepted version for publication in MNRAS

Published

2021

18. Anti-symmetric clustering signals in the observed power spectrum

Author

Fonseca, José and Clarkson, Chris

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, General Relativity and Quantum Cosmology

Abstract

In this paper, we study how to directly measure the effect of peculiar velocities in the observed angular power spectra. We do this by constructing a new anti-symmetric estimator of Large Scale Structure using different dark matter tracers. We show that the Doppler term is the major component of our estimator and we show that we can measure it with a signal-to-noise ratio up to $\sim 50$ using a futuristic SKAO HI galaxy survey. We demonstrate the utility of this estimator by using it to provide constraints on the Euler equation., Comment: 24 pages, 9 figures, 4 tables. Updated explanations. Agrees with published version

Published

2021

19. HI intensity mapping with MeerKAT: Calibration pipeline for multi-dish autocorrelation observations

Author

Wang, Jingying, Santos, Mario G., Bull, Philip, Grainge, Keith, Cunnington, Steven, Fonseca, Jose, Irfan, Melis O., Li, Yichao, Pourtsidou, Alkistis, Soares, Paula S., Spinelli, Marta, Bernardi, Gianni, and Engelbrecht, Brandon

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

While most purpose-built 21cm intensity mapping experiments are close-packed interferometer arrays, general-purpose dish arrays should also be capable of measuring the cosmological 21cm signal. This can be achieved most efficiently if the array is used as a collection of scanning autocorrelation dishes rather than as an interferometer. As a first step towards demonstrating the feasibility of this observing strategy, we show that we are able to successfully calibrate dual-polarisation autocorrelation data from 64 MeerKAT dishes in the L-band (856-1712 MHz, 4096 channels), with 10.5 hours of data retained from six nights of observing. We describe our calibration pipeline, which is based on multi-level RFI flagging, periodic noise diode injection to stabilise gain drifts and an absolute calibration based on a multi-component sky model. We show that it is sufficiently accurate to recover maps of diffuse celestial emission and point sources over a 10 deg x 30 deg patch of the sky overlapping with the WiggleZ 11hr field. The reconstructed maps have a good level of consistency between per-dish maps and external datasets, with the estimated thermal noise limited to 1.4 x the theoretical noise level (~ 2 mK). The residual maps have rms amplitudes below 0.1 K, corresponding to <1% of the model temperature. The reconstructed Galactic HI intensity map shows excellent agreement with the Effelsberg-Bonn HI Survey, and the flux of the radio galaxy 4C+03.18 is recovered to within 3.6%, which demonstrates that the autocorrelation can be successfully calibrated to give the zero-spacing flux and potentially help in the imaging of MeerKAT interferometric data. Our results provide a positive indication towards the feasibility of using MeerKAT and the future SKA to measure the HI intensity mapping signal and probe cosmology on degree scales and above., Comment: 24 pages, 34 figures, accepted for publication in MNRAS

Published

2020

20. Measuring ultra-large scale effects in the presence of 21cm intensity mapping foregrounds

Author

Fonseca, José and Liguori, Michele

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

\textsc{Hi} intensity mapping will provide maps of the large-scale distribution of neutral hydrogen (\textsc{Hi}) in the universe. These are prime candidates to be used to constrain primordial non-Gaussianity using the Large Scale Structure of the Universe as well as to provide further tests of Einstein's theory of Gravity (GR). But \textsc{Hi} maps are contaminated by foregrounds, which can be several orders of magnitude above the cosmological signal. Here we quantify how degenerated are the large-scale effects ($f_{\rm NL}$ and GR effects) with the residual foregrounds. We conclude that a joint analysis does not provide a catastrophic degradation of constraints and provides a framework to determine the marginal errors of large scale-effects in the presence of foregrounds. Similarly, we conclude that the macroscopical properties of the foregrounds can be measured with high precision. Notwithstanding, such results are highly dependent on accurate forward modelling of the foregrounds, which incorrectly done catastrophically bias the best fit values of cosmological parameters, foreground parameterisations, and large-scale effects., Comment: 14 pages, 5 figures, 4 tables. Agrees with published version

Published

2020

21. Probing primordial non-Gaussianity with the power spectrum and bispectrum of future 21cm intensity maps

Author

Karagiannis, Dionysios, Fonseca, José, Maartens, Roy, and Camera, Stefano

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

After reionisation, the 21cm emission line of neutral hydrogen within galaxies provides a tracer of dark matter. Next-generation intensity mapping surveys, with the SKA and other radio telescopes, will cover large sky areas and a wide range of redshifts, facilitating their use as probes of primordial non-Gaussianity. {Previous works have shown that the bispectrum can achieve tight constraints on primordial non-Gaussianity with future surveys that are purposely designed for intensity mapping in interferometer mode}. Here we investigate the constraints attainable from surveys operating in single-dish mode, \rev{using the combined power spectrum and bispectrum signal}. In the case of the power spectrum, single-dish surveys typically outperform interferometer surveys. We find that the reverse holds for the bispectrum: single-dish surveys are not competitive with surveys designed for interferometer mode., Comment: 31 pages, 5 figures, Power spectrum constraints added; version accepted by Phys. Dark Univ

Published

2020

22. Constraining the growth rate by combining multiple future surveys

Author

Viljoen, Jan-Albert, Fonseca, José, and Maartens, Roy

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

The growth rate of large-scale structure provides a powerful consistency test of the standard cosmological model and a probe of possible deviations from general relativity. We use a Fisher analysis to forecast constraints on the growth rate from a combination of next-generation spectroscopic surveys. In the overlap survey volumes, we use a multi-tracer analysis to significantly reduce the effect of cosmic variance. The non-overlap individual survey volumes are included in the Fisher analysis in order to utilise the entire volume. We use the observed angular power spectrum, which naturally includes all wide-angle and lensing effects and circumvents the need for an Alcock-Paczynski correction. Cross correlations between redshift bins are included by using a novel technique to avoid computation of the sub-dominant contributions. Marginalising over the standard cosmological parameters, as well as the clustering bias in each redshift bin, we find that the precision on $\gamma$ improves on the best single-tracer precision by up to $\sim$50\%., Comment: Minor corrections: final accepted version

Published

2020

23. Unexpected Near-Infrared to Visible Non-linear Optical Properties from Two-Dimensional Polar Metals

Author

Steves, Megan A., Wang, Yuanxi, Briggs, Natalie, Zhao, Tian, El-Sherif, Hesham, Bersch, Brian, Subramanian, Shruti, Dong, Chengye, Bowen, Timothy, Duran, Ana De La Fuente, Nisi, Katharina, Lassaunière, Margaux, Wurstbauer, Ursula, Bassim, Nabil, Fonseca, Jose J., Robinson, Jeremy T., Crespi, Vincent, Robinson, Joshua, and Knappenberger Jr, Kenneth L.

Subjects

Condensed Matter - Materials Science

Abstract

Near-infrared-to-visible second harmonic generation from air-stable two-dimensional polar gallium and indium metals is described. The photonic properties of 2D metals - including the largest second-order susceptibilities reported for metals (approaching 10nm$^2$/V) - are determined by the atomic-level structure and bonding of two-to-three-atom-thick crystalline films. The bond character evolved from covalent to metallic over a few atomic layers, changing the out-of-plane metal-metal bond distances by approximately ten percent (0.2 $\unicode{x212B}$), resulting in symmetry breaking and an axial electrostatic dipole that mediated the large nonlinear response. Two different orientations of the crystalline metal atoms, corresponding to lateral displacements < 2 $\unicode{x212B}$, persisted in separate micron-scale terraces to generate distinct harmonic polarizations. This strong atomic-level structure-property interplay suggests metal photonic properties can be controlled with atomic precision.

Published

2020

24. High-redshift cosmology with oxygen lines from H$\alpha$ surveys

Author

Fonseca, José and Camera, Stefano

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

A new generation of cosmological experiments will spectroscopically detect the H$\alpha$ line from ELGs at optical/near-infrared frequencies. Other emission lines will also be present, which may come from the same H$\alpha$ sample or constitute a new galaxy sample altogether. Our goal is to assess the value, for cosmological investigation, of galaxies at $z\gtrsim2$ present in H$\alpha$ galaxy surveys and identifiable by the highly redshifted ultra-violet and optical lines - namely the OII line and the OIII doublet in combination with the H$\beta$ line. We use state-of-the-art luminosity functions to estimate the number density of OIIIb and OII ELGs. We study the constraining power of these high-redshift galaxy samples on cosmological parameters such as the BAO amplitude, $H(z)$, $D_{\rm A}(z)$, $f\sigma_8(z)$, and $b\sigma_8(z)$ for different survey designs. We present a strong science case for extracting the OIIIb sample, which we consider as an independent probe of the Universe in the redshift range $2-3$. Moreover, we show that the OII sample can be used to measure the BAO and growth of structure above $z=3$; albeit it may be shot-noise dominated, it will nonetheless provide valuable tomographic information. We discuss the scientific potential of a sample of galaxies which, so far, has been mainly considered as a contaminant in H$\alpha$ galaxy surveys. Our findings indicate that planned H$\alpha$ surveys should include the extraction of these oxygen-line samples in their pipeline, to enhance their scientific impact on cosmology., Comment: Version matching publication on MNRAS

Published

2020

25. Non-Gaussianity Constraints using Future Radio Continuum Surveys and the Multi-Tracer Technique

Author

Gomes, Zahra, Camera, Stefano, Jarvis, Matt J., Hale, Catherine, and Fonseca, José

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Tighter constraints on measurements of primordial non-Gaussianity will allow the differentiation of inflationary scenarios. The cosmic microwave background bispectrum-the standard method of measuring the local non-Gaussianity-is limited by cosmic variance. Therefore, it is sensible to investigate measurements of non-Gaussianity using the large-scale structure. This can be done by investigating the effects of non-Gaussianity on the power spectrum on large scales. In this study we forecast the constraints on the local primordial non-Gaussianity parameter $f_{\rm NL}$ that can be obtained with future radio surveys. We utilize the multi-tracer method which reduces the effect of cosmic variance and takes advantage of the multiple radio galaxy populations which are differently biased tracers of the same underlying dark matter distribution. Improvements on previous work include the use of observational bias and halo mass estimates, updated simulations and realistic photometric redshift expectations, thus producing more realistic forecasts. Combinations of SKA simulations and radio observations were used as well as different redshift ranges and redshift bin sizes. It was found that in the most realistic case the 1 - $\sigma$ error on $f_{\rm NL}$ falls within the range 4.07 and 6.58, rivalling the tightest constraints currently available., Comment: 11 pages, 5 figures

Published

2019

26. Enabling remote quantum emission in 2D semiconductors via porous metallic networks

Author

Fonseca, Jose J., Yeats, Andrew L., Blue, Brandon, Zalalutdinov, Maxim, Brintlinger, Todd, Simpkins, Blake S., Ratchford, Daniel C., Culbertson, James C., Grim, Joel Q., Carter, Samuel G., Ishigami, Masa, Stroud, Rhonda M., Cress, Cory, and Robinson, Jeremy T.

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science

Abstract

The interaction between two-dimensional crystals (2DCs) and metals is ubiquitous in 2D material research. Here we report how 2DC overlayers influence the recrystallization of relatively thick metal films and the subsequent synergetic benefits this provides for coupling surface plasmon-polaritons (SPPs) to photon emission in 2D semiconductors. We show that annealing 2DC/Au films on SiO2 results in a 'reverse epitaxial' process where initially nanocrystalline Au films become highly textured and in close crystallographic registry to the 2D crystal overlayer. With continued annealing, the metal underlayer dewets to form an oriented pore enabled network (OPEN) film in which the 2DC overlayer remains suspended above or coats the inside of the metal pores. This OPEN film geometry supports SPPs launched by either direct laser excitation or by light emitted from the TMD semiconductor itself, where energy in-coupling and out-coupling occurs at the metal pore sites such that dielectric spacers between the metal and 2DC layer are unnecessary. At low temperatures a high density of single-photon emitters (SPEs) is present across an OPEN-WSe2 film, and we demonstrate non-local excitation of SPEs at a distance of 17 {\mu}m with minimal loss of photon purity. Our results suggest the OPEN film geometry is a versatile platform that could facilitate the use of layered materials in quantum optics systems., Comment: 15 pages, 4 figures

Published

2019

27. Line intensity mapping: a 'novel' window to the cosmic web

Author

Fonseca, José

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

Intensity mapping has been attracting increasing interest as a way to study galaxy evolution and the large scale structure of the Universe. Instead of detecting individual galaxies, we measure the integrated emission from a volume of the universe. Contrary to galaxy surveys, it includes light from the faintest objects in the cosmic web. We will start this overview by introducing line intensity mapping and review its current observational status. We will enumerate the most prominent emission lines for intensity mapping and discuss how to model their observed signal. The prospects of using this technique in the near future are very good with a wide range of experiments in different parts of the electromagnetic spectrum. As for any other observational tool, intensity mapping is not free of systematic uncertainties, some of which are intrinsic to it. We will briefly discuss them as well as the means to deal with foreground and background contamination. Here, we will focus on the science cases for intensity mapping in the post-reionization universe. These range from the history of star formation to measuring the acoustic scale and the fundamental physics., Comment: Invited talk at the IAU Symposium 355: The Realm of the Low Surface Brightness Universe, Tenerife, Spain, July 2019; to appear in The Realm of the Low-Surface-Brightness Universe, Proceedings IAU Symposium No. 355, 2019, Eds. D. Valls-Gabaud, I. Trujillo & S. Okamoto [15 pages, 5 figures, 1 table]

Published

2019

28. Constraints on the growth rate using the observed galaxy power spectrum

Author

Fonseca, José, Viljoen, Jan-Albert, and Maartens, Roy

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

The large-scale structure growth index $\gamma$ provides a consistency test of the standard cosmology and is a potential indicator of modified gravity. We investigate the constraints on $\gamma$ from next-generation spectroscopic surveys, using the power spectrum that is observed in redshift space, i.e., the angular power spectrum. The angular power spectrum avoids the need for an Alcock-Packzynski correction. It also naturally incorporates cosmic evolution and wide-angle effects, without any approximation. We include the cross-correlations between redshift bins, using a hybrid approximation when the total number of bins is computationally unfeasible. We show that the signal-to-noise on $\gamma$ increases as the redshift bin-width is decreased. Noise per bin also increases -- but this is compensated by the increased number of auto- and cross-spectra. In our forecasts, we marginalise over the amplitude of primordial fluctuations and other standard cosmological parameters, including the dark energy equation of state parameter, as well as the clustering bias. Neglecting cross-bin correlations increases the errors by $\sim40 - 150\%$. Using only linear scales, we find that a DESI-like BGS survey and an HI intensity mapping survey with the SKA1 precursor MeerKAT deliver similar errors of $\sim4-6\%$, while a Euclid-like survey and an SKA1 intensity mapping survey give $\sim3\%$ errors., Comment: 19 pages, 5 figures, 5 tables. Significant changes, including a correction to the previous claim that redshift binning can be optimised. Version accepted by JCAP

Published

2019

29. Alkylation converts riboflavin into an efficient photosensitizer of phospholipid membranes

Author

Sosa, María José, Fonseca, José Luis, Sakaya, Aya, Urrutia, María Noel, Petroselli, Gabriela, Erra-Balsells, Rosa, Quindt, Matías I., Bonesi, Sergio M., Cosa, Gonzalo, Vignoni, Mariana, and Thomas, Andrés H.

Published

2023

30. An AMG saddle point preconditioner with application to mixed Poisson problems on adaptive quad/cube meshes

Author

Burstedde, Carsten, Fonseca, Jose A., and Metsch, Bram

Subjects

Mathematics - Numerical Analysis, 65N30, 65F08, 65N55

Abstract

We investigate various block preconditioners for a low-order Raviart-Thomas discretization of the mixed Poisson problem on adaptive quadrilateral meshes. In addition to standard diagonal and Schur complement preconditioners, we present a dedicated AMG solver for saddle point problems (SPAMG). A key element is a stabilized prolongation operator that couples the flux and scalar components. Our numerical experiments in 2D and 3D show that the SPAMG preconditioner displays nearly mesh-independent iteration counts for adaptive meshes and heterogeneous coefficients.

Published

2019

31. Cosmology with Phase 1 of the Square Kilometre Array; Red Book 2018: Technical specifications and performance forecasts

Author

Square Kilometre Array Cosmology Science Working Group, Bacon, David J., Battye, Richard A., Bull, Philip, Camera, Stefano, Ferreira, Pedro G., Harrison, Ian, Parkinson, David, Pourtsidou, Alkistis, Santos, Mario G., Wolz, Laura, Abdalla, Filipe, Akrami, Yashar, Alonso, David, Andrianomena, Sambatra, Ballardini, Mario, Bernal, Jose Luis, Bertacca, Daniele, Bengaly, Carlos A. P., Bonaldi, Anna, Bonvin, Camille, Brown, Michael L., Chapman, Emma, Chen, Song, Chen, Xuelei, Cunnington, Steven, Davis, Tamara M., Dickinson, Clive, Fonseca, Jose, Grainge, Keith, Harper, Stuart, Jarvis, Matt J., Maartens, Roy, Maddox, Natasha, Padmanabhan, Hamsa, Pritchard, Jonathan R., Raccanelli, Alvise, Rivi, Marzia, Roychowdhury, Sambit, Sahlen, Martin, Schwarz, Dominik J., Siewert, Thilo M., Viel, Matteo, Villaescusa-Navarro, Francisco, Xu, Yidong, Yamauchi, Daisuke, and Zuntz, Joe

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We present a detailed overview of the cosmological surveys that will be carried out with Phase 1 of the Square Kilometre Array (SKA1), and the science that they will enable. We highlight three main surveys: a medium-deep continuum weak lensing and low-redshift spectroscopic HI galaxy survey over 5,000 sqdeg; a wide and deep continuum galaxy and HI intensity mapping survey over 20,000 sqdeg from z = 0.35 - 3; and a deep, high-redshift HI intensity mapping survey over 100 sqdeg from z = 3 - 6. Taken together, these surveys will achieve an array of important scientific goals: measuring the equation of state of dark energy out to z ~ 3 with percent-level precision measurements of the cosmic expansion rate; constraining possible deviations from General Relativity on cosmological scales by measuring the growth rate of structure through multiple independent methods; mapping the structure of the Universe on the largest accessible scales, thus constraining fundamental properties such as isotropy, homogeneity, and non-Gaussianity; and measuring the HI density and bias out to z = 6. These surveys will also provide highly complementary clustering and weak lensing measurements that have independent systematic uncertainties to those of optical surveys like LSST and Euclid, leading to a multitude of synergies that can improve constraints significantly beyond what optical or radio surveys can achieve on their own. This document, the 2018 Red Book, provides reference technical specifications, cosmological parameter forecasts, and an overview of relevant systematic effects for the three key surveys, and will be regularly updated by the Cosmology Science Working Group in the run up to start of operations and the Key Science Programme of SKA1., Comment: Red Book 2018 of the Square Kilometre Array Cosmology Science Working Group; 35 pages, 27 figures; To be submitted to PASA

Published

2018

32. Personal Virtual Traffic Light Systems

Author

Martins, Vanessa, Rufino, João, Fernandes, Bruno, Silva, Luís, Almeida, João, Ferreira, Joaquim, and Fonseca, José

Subjects

Computer Science - Human-Computer Interaction

Abstract

Traffic control management at intersections, a challenging and complex field of study, aims to attain a balance between safety and efficient traffic control. Nowadays, traffic control at intersections is typically done by traffic light systems which are not optimal and exhibit several drawbacks, e.g. poor efficiency and real-time adaptability. With the advent of Intelligent Transportation Systems (ITS), vehicles are being equipped with state-of-the-art technology, enabling cooperative decision-making which will certainly overwhelm the available traffic control systems. This solution strongly penalizes users without such capabilities, namely pedestrians, cyclists and other legacy vehicles. Therefore, in this work, a prototype based on an alternative technology to the standard vehicular communications, BLE, is presented. The proposed framework aims to integrate legacy and modern vehicular communication systems into a cohesive management system. In this framework, the movements of users at intersections are managed by a centralized controller which, through the use of networked retransmitters deployed at intersections, broadcasts alerts and virtual light signalization orders. Users receive the aforementioned information on their own smart devices, discarding the need for dedicated light signalization infrastructures. Field tests, carried-out with a real-world implementation, validate the correct operation of the proposed framework., Comment: 7 pages, 12 figures

Published

2018

33. Simulated multi-tracer analyses with HI intensity mapping

Author

Witzemann, Amadeus, Alonso, David, Fonseca, José, and Santos, Mario G.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We use full sky simulations, including the effects of foreground contamination and removal, to explore multi-tracer synergies between a SKA-like 21cm intensity mapping survey and a LSST-like photometric galaxy redshift survey. In particular we study ratios of auto and cross-correlations between the two tracers as estimators of the ratio of their biases, a quantity that should benefit considerably from the cosmic variance cancellation of the multi-tracer approach. We show how well we should be able to measure the bias ratio on very large scales (down to $\ell \sim 3$), which is crucial to measure primordial non-Gaussianity and general relativistic effects on large scale structure. We find that, in the absence of foregrounds but with realistic noise levels of such surveys, the multi-tracer estimators are able to improve on the sensitivity of a cosmic-variance contaminated measurement by a factor of $2-4$. When foregrounds are included, estimators using the 21cm auto-correlation become biased. However, we show that cross-correlation estimators are immune to this and do not incur in any significant penalty in terms of sensitivity from discarding the auto-correlation data. However, the loss of long-wavelength radial modes caused by foreground removal in combination with the low redshift resolution of photometric surveys, reduces the sensitivity of the multi-tracer estimator, albeit still better than the cosmic variance contaminated scenario even in the noise free case. Finally we explore different alternative avenues to avoid this problem., Comment: 14 pages, 11 figures, 1 table

Published

2018

34. Optimised angular power spectra for spectroscopic galaxy surveys

Author

Camera, Stefano, Fonseca, José, Maartens, Roy, and Santos, Mário G.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The angular power spectrum is a gauge-independent observable that is in principle the natural tool for analysing galaxy number counts. In practice, the problem is that the computational requirements for next-generation spectroscopic surveys such as Euclid and the Square Kilometre Array are currently unfeasible. We propose a new method to save computational time for spectroscopic angular power spectra. This hybrid method is modelled on the Fourier power spectrum approach of treating relatively thick redshift bins (redshift width ~0.1) as separate surveys. In the hybrid method, each thick bin is further subdivided into thin bins (redshift width ~0.01); all the correlations within each thick bin are computed, while cross-bin correlations beyond the thick bins are neglected. Constraints on cosmological parameters from the hybrid method are comparable to those from the standard galaxy power spectrum analysis - but they have the advantage that cosmic evolution, wide-angle and lensing effects are naturally included, while no Alcock-Paczynski correction is needed. The hybrid method delivers much tighter constraints than a 2D tomographic approach that is typical for photometric surveys, which considers only thick bins and the correlations between them. Furthermore, for standard cosmological parameters our method is not biased by neglecting the effects of lensing on number counts, while the tomographic method is strongly biased., Comment: 11 pages, 7 figures, 4 tables. Typo in Eq. (2) fixed

Published

2018

35. Synergies between intensity maps of hydrogen lines

Author

Fonseca, José, Maartens, Roy, and Santos, Mário G.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We study synergies between HI 21cm and H$\alpha$ intensity map observations, focusing on SKA1-like and SPHEREx-like surveys. We forecast how well such a combination can measure features in the angular power spectrum on the largest scales, that arise from primordial non-Gaussianity and from general relativistic effects. For the first time we consider Doppler, Sachs-Wolfe and integrated SW effects separately. We confirm that the single-tracer surveys on their own cannot detect general relativistic effects and can constrain the non-Gaussianity parameter $f_{\rm NL}$ only slightly better than Planck. Using the multi-tracer technique, constraints on $f_{\rm NL}$ can be pushed down to $\sim1$. Amongst the general relativistic effects, the Doppler term is detectable with the multi-tracer. The Sachs-Wolfe terms and the integrated SW effect are still not detectable., Comment: 9 pages, 7 figures, 2 tables, version accepted by MNRAS

Published

2018

36. Radio frequency interference from radio navigation satellite systems: simulations and comparison to MeerKAT single-dish data.

Author

Engelbrecht, Brandon N, Santos, Mario G, Fonseca, José, Li, Yichao, Wang, Jingying, Irfan, Melis O, Harper, Stuart E, Grainge, Keith, Bull, Philip, Carucci, Isabella P, Cunnington, Steven, Pourtsidou, Alkistis, Spinelli, Marta, and Wolz, Laura

Subjects

RADIO interference, ARTIFICIAL satellites in navigation, SATELLITE radio services, SIMULATION software, MEERKAT

Abstract

Radio frequency interference (RFI) is emitted from various sources, terrestrial or orbital, and creates a nuisance for ground-based 21-cm experiments. In particular, single-dish observations will be highly susceptible to RFI due to their wide primary beam and sensitivity. This work aimed to simulate the contamination effects from the Radio Navigational Satellite System (RNSS) within the 1100–1350 (MHz) frequency band. The simulation can be divided into two parts: (i) satellite positioning, emission power, and the beam response on the telescope, and (ii) calibration of the satellite signals to data to improve the original model. We utilize previously observed single-dish L -band data from the Meer-Karoo Array Telescope (MeerKAT), which requires special calibration to account for regions contaminated by satellite-based RFI. We find that we can recreate the satellite contamination with high accuracy around its peak frequencies provided the satellite is not too close to the telescope's pointing direction. The simulation can predict satellite movements and signals for past and future observations, aiding in RFI avoidance and testing novel cleaning methods. The predicted signal sits below the noise in the target cosmology window in the L band (970–1015 MHz) making it difficult to confirm any out-of-band emission from satellites. However, in our simulations, this contamination still overwhelmed the 21-cm auto-power spectrum. Nevertheless, it is possible to detect the signal in cross-correlations after mild foreground cleaning. Whether such out of band contamination does exist will require further characterization of the satellite signals far away from their peak frequencies. [ABSTRACT FROM AUTHOR]

Published

2025

37. Line-Intensity Mapping: 2017 Status Report

Author

Kovetz, Ely D., Viero, Marco P., Lidz, Adam, Newburgh, Laura, Rahman, Mubdi, Switzer, Eric, Kamionkowski, Marc, Aguirre, James, Alvarez, Marcelo, Bock, James, Bond, J. Richard, Bower, Goeffry, Bradford, C. Matt, Breysse, Patrick C., Bull, Philip, Chang, Tzu-Ching, Cheng, Yun-Ting, Chung, Dongwoo, Cleary, Kieran, Corray, Asantha, Crites, Abigail, Croft, Rupert, Doré, Olivier, Eastwood, Michael, Ferrara, Andrea, Fonseca, José, Jacobs, Daniel, Keating, Garrett K., Lagache, Guilaine, Lakhlani, Gunjan, Liu, Adrian, Moodley, Kavilan, Murray, Norm, Pénin, Aurélie, Popping, Gergö, Pullen, Anthony, Reichers, Dominik, Saito, Shun, Saliwanchik, Ben, Santos, Mario, Somerville, Rachel, Stacey, Gordon, Stein, George, Villaescusa-Navarro, Francesco, Visbal, Eli, Weltman, Amanda, Wolz, Laura, and Zemcov, Micheal

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Astrophysics of Galaxies, Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

Following the first two annual intensity mapping workshops at Stanford in March 2016 and Johns Hopkins in June 2017, we report on the recent advances in theory, instrumentation and observation that were presented in these meetings and some of the opportunities and challenges that were identified looking forward. With preliminary detections of CO, [CII], Lya and low-redshift 21cm, and a host of experiments set to go online in the next few years, the field is rapidly progressing on all fronts, with great anticipation for a flood of new exciting results. This current snapshot provides an efficient reference for experts in related fields and a useful resource for nonspecialists. We begin by introducing the concept of line-intensity mapping and then discuss the broad array of science goals that will be enabled, ranging from the history of star formation, reionization and galaxy evolution to measuring baryon acoustic oscillations at high redshift and constraining theories of dark matter, modified gravity and dark energy. After reviewing the first detections reported to date, we survey the experimental landscape, presenting the parameters and capabilities of relevant instruments such as COMAP, mmIMe, AIM-CO, CCAT-p, TIME, CONCERTO, CHIME, HIRAX, HERA, STARFIRE, MeerKAT/SKA and SPHEREx. Finally, we describe recent theoretical advances: different approaches to modeling line luminosity functions, several techniques to separate the desired signal from foregrounds, statistical methods to analyze the data, and frameworks to generate realistic intensity map simulations., Comment: 99 pages, 48 figures; Endorsement and any comments welcome; To be submitted to Physics Reports

Published

2017

38. MeerKLASS: MeerKAT Large Area Synoptic Survey

Author

Santos, Mario G., Cluver, Michelle, Hilton, Matt, Jarvis, Matt, Jozsa, Gyula I. G., Leeuw, Lerothodi, Smirnov, Oleg, Taylor, Russ, Abdalla, Filipe, Afonso, Jose, Alonso, David, Bacon, David, Bassett, Bruce A., Bernardi, Gianni, Bull, Philip, Camera, Stefano, Chiang, H. Cynthia, Colafrancesco, Sergio, Ferreira, Pedro G., Fonseca, Jose, van der Heyden, Kurt, Heywood, Ian, Knowles, Kenda, Lochner, Michelle, Ma, Yin-Zhe, Maartens, Roy, Makhathini, Sphesihle, Moodley, Kavilan, Pourtsidou, Alkistis, Prescott, Matthew, Sievers, Jonathan, Spekkens, Kristine, Vaccari, Mattia, Weltman, Amanda, Whittam, Imogen, Witzemann, Amadeus, Wolz, Laura, and Zwart, Jonathan T. L.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

We discuss the ground-breaking science that will be possible with a wide area survey, using the MeerKAT telescope, known as MeerKLASS (MeerKAT Large Area Synoptic Survey). The current specifications of MeerKAT make it a great fit for science applications that require large survey speeds but not necessarily high angular resolutions. In particular, for cosmology, a large survey over $\sim 4,000 \, {\rm deg}^2$ for $\sim 4,000$ hours will potentially provide the first ever measurements of the baryon acoustic oscillations using the 21cm intensity mapping technique, with enough accuracy to impose constraints on the nature of dark energy. The combination with multi-wavelength data will give unique additional information, such as exquisite constraints on primordial non-Gaussianity using the multi-tracer technique, as well as a better handle on foregrounds and systematics. Such a wide survey with MeerKAT is also a great match for HI galaxy studies, providing unrivalled statistics in the pre-SKA era for galaxies resolved in the HI emission line beyond local structures at z > 0.01. It will also produce a large continuum galaxy sample down to a depth of about 5\,$\mu$Jy in L-band, which is quite unique over such large areas and will allow studies of the large-scale structure of the Universe out to high redshifts, complementing the galaxy HI survey to form a transformational multi-wavelength approach to study galaxy dynamics and evolution. Finally, the same survey will supply unique information for a range of other science applications, including a large statistical investigation of galaxy clusters as well as produce a rotation measure map across a huge swathe of the sky. The MeerKLASS survey will be a crucial step on the road to using SKA1-MID for cosmological applications and other commensal surveys, as described in the top priority SKA key science projects (abridged)., Comment: Larger version of the paper submitted to the Proceedings of Science, "MeerKAT Science: On the Pathway to the SKA", Stellenbosch, 25-27 May 2016

Published

2017

39. zBEAMS: A unified solution for supernova cosmology with redshift uncertainties

Author

Roberts, Ethan, Lochner, Michelle, Fonseca, José, Bassett, Bruce A., Lablanche, Pierre-Yves, and Agarwal, Shankar

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

Supernova cosmology without spectra will be an important component of future surveys such as LSST. This lack of supernova spectra results in uncertainty in the redshifts which, if ignored, leads to significantly biased estimates of cosmological parameters. Here we present a hierarchical Bayesian formalism -- zBEAMS -- that addresses this problem by marginalising over the unknown or uncertain supernova redshifts to produce unbiased cosmological estimates that are competitive with supernova data with spectroscopically confirmed redshifts. zBEAMS provides a unified treatment of both photometric redshifts and host galaxy misidentification (occurring due to chance galaxy alignments or faint hosts), effectively correcting the inevitable contamination in the Hubble diagram. Like its predecessor BEAMS, our formalism also takes care of non-Ia supernova contamination by marginalising over the unknown supernova type. We illustrate this technique with simulations of supernovae with photometric redshifts and host galaxy misidentification. A novel feature of the photometric redshift case is the important role played by the redshift distribution of the supernovae., Comment: Matches published version, 18 pages, 6 figures, Code available: https://github.com/MichelleLochner/zBEAMS

Published

2017

40. Aphasia Screening Test (TeRAp): Construction and Validation for European Portuguese.

Author

FONSECA, José, MIRANDA, Filipa, STEIN, Beatriz, and MARUTA, Carolina

Published

2024

41. Electrical burn-induced vocal cord injury: insights from a case report and literature review.

Author

Fonseca, José, Garza, Jorge, García, Mauricio, Aguirre, Karen, Alotaibi, Haya, and Mortada, Hatan

Subjects

ELECTRICAL injuries, ELECTRICAL burns, INJURY complications, VOCAL cords, HIGH voltages

Abstract

We report a rare case of vocal cord injury from an electrical burn, managed successfully with conservative, non-invasive treatment. This unique case illustrates potential complications of electrical trauma and underscores the need for vigilance and consideration of conservative management approaches. [ABSTRACT FROM AUTHOR]

Published

2024

42. Fully Connected Feedforward Neural Network for the Prediction of Amorphous Silicon Grating Couplers Efficiency

Author

Almeida Daniel, Fantoni Alessandro, Costa João, Vieira Manuela, and Fonseca José

Subjects

Physics, QC1-999

Abstract

Photonic circuits are an enabling technology for the development of novel solutions in different fields such as healthcare, quantum computing, neural networks, communications, and manufacturing. Interconnections between devices and systems require low-loss light coupling strategies. Grating couplers are a promising solution to couple light between photonic circuits and optical fibres due to their off-plane coupling capabilities. Hydrogenated amorphous silicon (a-Si:H), which can be deposited by PECVD over a substrate of silica or glass, is a suitable low-cost solution for the production of such light coupling devices. In this work we developed, trained and tested a fully connected feedforward neural network for coupling efficiency prediction in a-Si:H grating couplers. The light coupling gratings were simulated by twodimensional finite-difference time-domain (FDTD) analysis and field distributions were analysed with the Finite Element Method (FEM). Simulated gratings include non-apodized, linear and quadratic refractive index variation designs featuring full or partial etching, operating at 1550 nm. Not featuring any type of bottom reflector, the couplers exhibit coupling efficiencies up to about 40 % (~ -4 dB). The neural network multiclass grating coupler efficiency classifier was trained with over 3000 simulation results, reaching an accuracy over 85%, for coupling efficiencies between 0 and 30%+.

Published

2024

43. Automatic epicardial fat segmentation and volume quantification on non-contrast cardiac Computed Tomography

Author

Rebelo, Ana Filipa, Ferreira, António M., and Fonseca, José M.

Published

2022

44. Enhancing speed and scalability of the ParFlow simulation code

Author

Burstedde, Carsten, Fonseca, Jose A., and Kollet, Stefan

Subjects

Computer Science - Mathematical Software, Computer Science - Distributed, Parallel, and Cluster Computing, Physics - Fluid Dynamics

Abstract

Regional hydrology studies are often supported by high resolution simulations of subsurface flow that require expensive and extensive computations. Efficient usage of the latest high performance parallel computing systems becomes a necessity. The simulation software ParFlow has been demonstrated to meet this requirement and shown to have excellent solver scalability for up to 16,384 processes. In the present work we show that the code requires further enhancements in order to fully take advantage of current petascale machines. We identify ParFlow's way of parallelization of the computational mesh as a central bottleneck. We propose to reorganize this subsystem using fast mesh partition algorithms provided by the parallel adaptive mesh refinement library p4est. We realize this in a minimally invasive manner by modifying selected parts of the code to reinterpret the existing mesh data structures. We evaluate the scaling performance of the modified version of ParFlow, demonstrating good weak and strong scaling up to 458k cores of the Juqueen supercomputer, and test an example application at large scale., Comment: The final publication is available at link.springer.com

Published

2017

45. Probing the primordial Universe with MeerKAT and DES

Author

Fonseca, José, Maartens, Roy, and Santos, Mário G.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

It is usually assumed that we will need to wait until next-generation surveys like Euclid, LSST and SKA, in order to improve on the current best constraints on primordial non-Gaussianity from the Planck experiment. We show that two contemporary surveys, with the SKA precursor MeerKAT and the Dark Energy Survey (DES), can be combined using the multi-tracer technique to deliver an accuracy on measurement of $f_{\rm NL}$ that is up to three times better than Planck., Comment: 7 pages, 5 figures, 1 table. We now marginalise over the bias, and ensure that we exclude nonlinear scales, leading to small quantitative corrections. Version accepted by MNRAS

Published

2016

46. Cosmology with intensity mapping techniques using atomic and molecular lines

Author

Fonseca, José, Silva, Marta B., Santos, Mário G., and Cooray, Asantha

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

We present a systematic study of the intensity mapping technique using updated models for the different emission lines from galaxies and identify which ones are more promising for cosmological studies of the post reionization epoch. We consider the emission of ${\rm Ly\alpha}$, ${\rm H\alpha}$, H$\beta$, optical and infrared oxygen lines, nitrogen lines, CII and the CO rotational lines. We then identify that ${\rm Ly\alpha}$, ${\rm H\alpha}$, OII, CII and the lowest rotational CO lines are the best candidates to be used as IM probes. These lines form a complementary set of probes of the galaxies emission spectra. We then use reasonable experimental setups from current, planned or proposed experiments to access the detectability of the power spectrum of each emission line. Intensity mapping of ${\rm Ly\alpha}$ emission from $z=2$ to 3 will be possible in the near future with HETDEX, while far-infrared lines require new dedicated experiments. We also show that the proposed SPHEREx satellite can use OII and ${\rm H\alpha}$ IM to study the large-scale distribution of matter in intermediate redshifts of 1 to 4. We found that submilimeter experiments with bolometers can have similar performances at intermediate redshifts using CII and CO(3-2)., Comment: 18 pages, 21 figures, 5 tables, published in MNRAS, typos corrected

Published

2016

47. Acute kidney injury in hospitalized patients with COVID-19: A Portuguese cohort

Author

Gameiro, Joana, Fonseca, José Agapito, Oliveira, João, Marques, Filipe, Bernardo, João, Costa, Claudia, Carreiro, Carolina, Braz, Sandra, and Lopes, José António

Published

2021

48. Citizen science and online data: Opportunities and challenges for snake ecology and action against snakebite

Author

Durso, Andrew M., Ruiz de Castañeda, Rafael, Montalcini, Camille, Mondardini, M. Rosa, Fernandez-Marques, Jose L., Grey, François, Müller, Martin M., Uetz, Peter, Marshall, Benjamin M., Gray, Russell J., Smith, Christopher E., Becker, Donald, Pingleton, Michael, Louies, Jose, Abegg, Arthur D., Akuboy, Jeannot, Alcoba, Gabriel, Daltry, Jennifer C., Entiauspe-Neto, Omar M., Freed, Paul, de Freitas, Marco Antonio, Glaudas, Xavier, Huang, Song, Huang, Tianqi, Kalki, Yatin, Kojima, Yosuke, Laudisoit, Anne, Limbu, Kul Prasad, Martínez-Fonseca, José G., Mebert, Konrad, Rödel, Mark-Oliver, Ruane, Sara, Ruedi, Manuel, Schmitz, Andreas, Tatum, Sarah A., Tillack, Frank, Visvanathan, Avinash, Wüster, Wolfgang, and Bolon, Isabelle

Published

2021

49. The neutrophil-to-lymphocyte ratio as a marker of vasculitis activity, severe infection and mortality in anca-associated vasculitis: A retrospective study

Author

Fonseca, José Agapito, Gameiro, Joana, Duarte, Inês, Jorge, Sofia, and Lopes, José António

Published

2021

50. Novel luminescent calixarene-based lanthanide materials: From synthesis and characterization to the selective detection of Fe3+

Author

Silva Lins, Ilária Martina, Daniel da Silva Fonseca, José, Lourenço da Luz, Leonis, Chojnacki, Jarosław, Júnior, Severino Alves, Barros, Bráulio Silva, and Kulesza, Joanna

Published

2021