Your search keyword '"Poulin, A."' showing total 25,439 results

1. Towards alleviating the $H_0$ and $S_8$ tensions with Early Dark Energy - Dark Matter drag

Author

Simon, Théo, Adi, Tal, Bernal, José Luis, Kovetz, Ely D., Poulin, Vivian, and Smith, Tristan L.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, High Energy Physics - Phenomenology

Abstract

Early dark energy, an additional component of dark energy active in the decade of redshift before recombination, has emerged as one of the most effective models at reducing the $H_0$ tension between direct measurement of the Hubble parameter $H_0$ in the late-universe and the $\Lambda$CDM prediction when calibrated on Planck. However, it requires a slight increase in the dark matter density $\omega_{\rm cdm}$ and primordial tilt $n_s$ that worsens the $S_8$ tension between measurements of weak gravitational lensing at low redshifts and the Planck/$\Lambda$CDM prediction. Using a phenomenological fluid model, we investigate whether the inclusion of a drag term between dark matter and early dark energy can compensate for the effect of the increase in power at small-scales, such that both $H_0$ and $S_8$ tensions are simultaneously alleviated. We find that this works if the drag term is dynamically relevant in the post-recombination universe. However, a drag term active before or just around the time at which the early dark energy contribution to the energy density is maximum is significantly constrained due to its impact on the matter perturbations before recombination, and the subsequent modifications to the cosmic microwave background power spectra., Comment: 10 + 7 pages, 8 figures. Comments welcome!

Published

2024

2. Probing Dark Relativistic Species and Their Interactions with Dark Matter through CMB and 21cm surveys

Author

Plombat, Hugo, Simon, Théo, Flitter, Jordan, and Poulin, Vivian

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We investigate the sensitivity of the 21cm power spectrum from cosmic dawn and the epoch of reionization to models of free-streaming dark radiation (parameterized through $N_{\rm eff}$) and interacting dark radiation-dark matter models (DM-DR). The latter models have gained attention for their potential in addressing recent cosmological tensions and structure formation challenges. We perform a Fisher matrix analysis under different assumptions regarding the astrophysical modeling, and forecast the sensitivity of HERA observations, combined with CMB data from Planck and the Simons Observatory (SO), to $N_{\rm eff}$ and DM-DR interaction modeled using the ETHOS framework assuming a constant scattering rate between the two components. Most importantly, we find that 21cm observations can improve the sensitivity to the DM-DR interaction rate by up to four order of magnitude compared to Planck and SO. Conversely, in the limit of low interaction rate (which asymptotically matches $N_{\rm eff}$), CMB data dominates the constraining power, but the inclusion of HERA data can provide a $\sim 20\%$ improvement in sensitivity over CMB data alone. Moreover, we find that HERA observations will be able to probe a region of the DM-DR interaction parameter space which is promising to explain the weak lensing amplitude `$S_8$' tension. Our results demonstrate the complementarity of 21cm and CMB data in exploring dark sector interactions., Comment: 25+13pages, 11 figures. Comments welcome!

Published

2024

3. Leading the AI Revolution: The Crucial Role of HBCUs in Steering AI Leadership

Author

Online Learning Consortium (OLC), WCET (WICHE Cooperative for Educational Technologies), Complete College America (CCA), National Association for Equal Opportunity in Higher Education,Washington, DC., Kim Cliett Long, Angela Gunder, Beverly Robinson, Van L. Davis, Dylan Barth, Terrance Adams, Contributor, Ricardo Brown, Contributor, Kimberly Bryant, Contributor, Meacie E. Fairfax, Contributor, Cristi Ford, Contributor, Marybeth Gasman, Contributor, Jennifer Mathes, Contributor, Robbie Melton, Contributor, Michael Nettles, Contributor, Russ Poulin, Contributor, and Omari Ross, Contributor

Abstract

The evolution of artificial intelligence (AI) presents an unprecedented opportunity for Historically Black Colleges and Universities (HBCUs) to lead in an era characterized by rapid technological advancement and societal transformation. This report explores the integral role HBCUs--with their history of academic excellence and commitment to inclusivity--can play in steering the AI revolution, ensuring that the Black community remains at the forefront of educational, economic, and social progress. Institutional leaders, faculty and instructors, and instructional support staff can benefit from the findings of this report, which is presented in the following sections: (1) Why AI Matters and the Unique Role of HBCUs in the AI Revolution; (2) An AI Policy and Practice Framework for Institutional Development; (3) AI and Curricular Innovation; (4) The Importance of Industry Partnerships and Student Development; and (5) AI at HBCUs: A Path to the Future. [This report was created in collaboration with the Thurgood Marshall College Fund.]

Published

2024

4. Confronting Cold New Early Dark Energy and its Equation of State with Updated CMB and Supernovae Data

Author

Chatrchyan, Aleksandr, Niedermann, Florian, Poulin, Vivian, and Sloth, Martin S.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, High Energy Physics - Phenomenology

Abstract

Cold New Early Dark Energy (Cold NEDE) addresses the Hubble tension through a triggered vacuum phase transition in the dark sector. In this paper, we constrain a phenomenological fluid model using recent cosmic microwave background likelihoods based on Planck NPIPE data alongside baryonic acoustic oscillations and supernovae data from Pantheon+. Exploiting the enhanced constraining power of the datasets, we introduce and study an extended version of the NEDE fluid model in which the equation of state parameter $w_\mathrm{NEDE}$, characterizing the post-phase transition fluid, is allowed to evolve with non-vanishing derivatives ${d}w_\mathrm{NEDE}/d\ln a$ and ${d^2}w_\mathrm{NEDE}/{d}(\ln a)^2$. Our results indicate that data is compatible with a rather simple time dependence that could arise from a mixture of radiation and a stiff fluid. With the updated datasets, the base and extended models still show a significant reduction of the DMAP tension from $6.3 \sigma$ in $\Lambda$CDM down to $3.5\sigma$ with a small simultaneous reduction of the $S_8$ tension, slightly improving over recent findings for the axion-like early dark energy model., Comment: 21 pages, 5 figures

Published

2024

5. On the implications of the `cosmic calibration tension' beyond $H_0$ and the synergy between early- and late-time new physics

Author

Poulin, Vivian, Smith, Tristan L., Calderón, Rodrigo, and Simon, Théo

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, High Energy Physics - Phenomenology

Abstract

The `cosmic calibration tension' is a $> 5\sigma$ discrepancy between the cosmological distance ladder built from baryonic acoustic oscillations (BAO) calibrated by the Planck/$\Lambda$CDM sound horizon ($r_s$) and Type Ia supernovae (SN1a) calibrated instead with the S$H_0$ES absolute magnitude, assuming the distance-duality relationship (DDR) holds. In this work, we emphasize the consequences of this tension beyond the value of the Hubble constant $H_0$, and the implications for physics beyond $\Lambda$CDM. Of utmost importance, it implies a larger physical matter density $\omega_m\equiv \Omega_m h^2$, as both the fractional matter density $\Omega_m$ and $h\equiv H_0/100$ km/s/Mpc are well constrained from late-time data. New physics in the pre-recombination era must thus be able to decrease $r_s$ while either reducing the value of $\Omega_m$, or increasing the value of $\omega_m$. Assuming a $\Lambda$CDM-like primordial power spectrum, this necessarily results in an increase in the clustering amplitude $\sigma_8$. Deviations from $\Lambda$CDM in the late-time expansion history cannot resolve the calibrator tension but can help relax the required shifts to the matter density and $\sigma_8$: it is in that sense that a combination of early and late-time new physics may help alleviate the tension. More precisely, models that modify the pre-recombination expansion history can accommodate the increase in $\omega_m$ without the need for additional modifications. It is those models which only affect recombination that require additional deviations at late-times to be successful. Hence, the `cosmic calibration tension' points either to a targeted modification of the pre-recombination expansion history, or to a broader change affecting multiple cosmic epochs., Comment: 12+6pages, 12 figures. Comments welcome!

Published

2024

6. Living at the Edge: A Critical Look at the Cosmological Neutrino Mass Bound

Author

Naredo-Tuero, Daniel, Escudero, Miguel, Fernández-Martínez, Enrique, Marcano, Xabier, and Poulin, Vivian

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, High Energy Physics - Experiment, High Energy Physics - Phenomenology

Abstract

Cosmological neutrino mass bounds are becoming increasingly stringent. The latest limit within $\Lambda$CDM from Planck 2018+ACT lensing+DESI is $\sum m_\nu < 0.072\,{\rm eV}$ at 95\% CL, very close to the minimum possible sum of neutrino masses ($\sum m_\nu > 0.06\,{\rm eV}$), hinting at vanishing or even ``negative'' cosmological neutrino masses. In this context, it is urgent to carefully evaluate the origin of these cosmological constraints. In this paper, we investigate the robustness of these results in three ways: i) we check the role of potential anomalies in Planck CMB and DESI BAO data; ii) we compare the results for frequentist and Bayesian techniques, as very close to physical boundaries subtleties in the derivation and interpretation of constraints can arise; iii) we investigate how deviations from $\Lambda$CDM, potentially alleviating these anomalies, can alter the constraints. From a profile likelihood analysis, we derive constraints in agreement at the $\sim 10\%$ level with Bayesian posteriors. We find that the weak preference for negative neutrino masses is mostly present for Planck 18 data, affected by the well-known `lensing anomaly'. It disappears when the new Planck 2020 HiLLiPoP is used, leading to significantly weaker constraints. Additionally, the pull towards negative masses in DESI data stems from the $z=0.7$ bin, which contains a BAO measurement in $\sim 3\sigma$ tension with Planck expectations. Without this bin, and in combination with HiLLiPoP, the bound relaxes to $\sum m_\nu < 0.11\,{\rm eV}$ at 95\% CL. The recent preference for dynamical dark energy alleviates this tension and further weakens the bound. As we are at the dawn of a neutrino mass discovery from cosmology, it will be very exciting to see if this trend is confirmed by future data., Comment: 17 pages + Appendices. Matches version accepted for publication in PRD

Published

2024

7. NIRPS first light and early science: breaking the 1 m/s RV precision barrier at infrared wavelengths

Author

Artigau, Étienne, Bouchy, François, Doyon, René, Baron, Frédérique, Malo, Lison, Wildi, François, Pepe, Franceso, Cook, Neil J., Thibault, Simon, Reshetov, Vladimir, Dumusque, Xavier, Lovis, Christophe, Sosnowska, Danuta, Martins, Bruno L. Canto, De Medeiros, Jose Renan, Delfosse, Xavier, Santos, Nuno, Rebolo, Rafael, Abreu, Manuel, Allain, Guillaume, Allart, Romain, Auger, Hugues, Barros, Susana, Bazinet, Luc, Blind, Nicolas, Boisse, Isabelle, Bonfils, Xavier, Bourrier, Vincent, Bovay, Sébastien, Broeg, Christopher, Brousseau, Denis, Bruniquel, Vincent, Cabral, Alexandre, Cadieux, Charles, Carmona, Andres, Carteret, Yann, Challita, Zalpha, Chazelas, Bruno, Cloutier, Ryan, Coelho, João, Cointepas, Marion, Conod, Uriel, Cowan, Nicolas, Cristo, Eduardo, da Silva, João Gomes, Dauplaise, Laurie, Gomes, Roseane de Lima, Delgado-Mena, Elisa, Ehrenreich, David, Faria, João, Figueira, Pedro, Forveille, Thierry, Frensch, Yolanda, Gagné, Jonathan, Genest, Frédéric, Genolet, Ludovic, Hernández, Jonay I. González, Témich, Félix Gracia, Grieves, Nolan, Hernandez, Olivier, Hobson, Melissa J., Hoeijmakers, Jens, Kerley, Dan, Krishnamurthy, Vigneshwaran, Lafrenière, David, Lamontagne, Pierrot, Larue, Pierre, Leaf, Henry, Leão, Izan C., Lim, Olivia, Curto, Gaspare Lo, Martins, Allan M., Melo, Claudio, Messias, Yuri S., Mignon, Lucile, Moranta, Leslie, Mordasini, Christoph, Moulla, Khaled Al, Mounzer, Dany, L'Heureux, Alexandrine, Nari, Nicola, Nielsen, Louise, Osborn, Ares, Parc, Léna, Pasquini, Luca, Passegger, Vera M., Pelletier, Stefan, Peroux, Céline, Piaulet, Caroline, Plotnykov, Mykhaylo, Poulin-Girard, Anne-Sophie, Rasilla, José Luis, Saint-Antoine, Jonathan, Sarajlic, Mirsad, Segovia, Alex, Seidel, Julia, Ségransan, Damien, Silva, Ana Rita Costa, Srivastava, Avidaan, Stefanov, Atanas K., Mascareño, Alejandro Suárez, Sordet, Michael, Teixeira, Márcio A., Udry, Stéphane, Valencia, Diana, Vallée, Philippe, Vandal, Thomas, Vaulato, Valentina, Wade, Gregg, Wardenier, Joost P., Wehbé, Bachar, Weisserman, Drew, Wevers, Ivan, and Zins, Gérard

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Earth and Planetary Astrophysics

Abstract

The Near-InfraRed Planet Searcher or NIRPS is a precision radial velocity spectrograph developed through collaborative efforts among laboratories in Switzerland, Canada, Brazil, France, Portugal and Spain. NIRPS extends to the 0.98-1.8 $\mu$m domain of the pioneering HARPS instrument at the La Silla 3.6-m telescope in Chile and it has achieved unparalleled precision, measuring stellar radial velocities in the infrared with accuracy better than 1 m/s. NIRPS can be used either stand-alone or simultaneously with HARPS. Commissioned in late 2022 and early 2023, NIRPS embarked on a 5-year Guaranteed Time Observation (GTO) program in April 2023, spanning 720 observing nights. This program focuses on planetary systems around M dwarfs, encompassing both the immediate solar vicinity and transit follow-ups, alongside transit and emission spectroscopy observations. We highlight NIRPS's current performances and the insights gained during its deployment at the telescope. The lessons learned and successes achieved contribute to the ongoing advancement of precision radial velocity measurements and high spectral fidelity, further solidifying NIRPS' role in the forefront of the field of exoplanets., Comment: Proceeding at the SPIE Astronomical Telescopes + Instrumentation conference [Yokohama,Japan; June 2024]

Published

2024

8. Quantification of Free Radicals from Vaping Electronic Cigarettes Containing Nicotine Salt Solutions with Different Organic Acid Types and Concentrations

Author

Tran, Lillian N, Rao, Guodong, Robertson, Nicholas E, Hunsaker, Haylee C, Chiu, Elizabeth Y, Poulin, Brett A, Madl, Amy K, Pinkerton, Kent E, Britt, R David, and Nguyen, Tran B

Subjects

Medicinal and Biomolecular Chemistry, Organic Chemistry, Chemical Sciences, Tobacco, Electronic Nicotine Delivery Systems, Good Health and Well Being, Nicotine, Free Radicals, Vaping, Salts, Solutions, Benzoic Acid, Levulinic Acids, Malates, Inorganic Chemistry, Toxicology, Pharmacology and pharmaceutical sciences, Medicinal and biomolecular chemistry, Organic chemistry

Abstract

Electronic (e-) cigarette formulations containing nicotine salts from a range of organic acid conjugates and pH values have dominated the commercial market. The acids in the nicotine salt formulations may alter the redox environment in e-cigarettes, impacting free radical formation in e-cigarette aerosol. Here, the generation of aerosol mass and free radicals from a fourth-generation e-cigarette device was evaluated at 2 wt % nicotine salts (pH 7, 30:70 mixture propylene glycol to vegetable glycerin) across eight organic acids used in e-liquids: benzoic acid (BA), salicylic acid (SLA), lactic acid (LA), levulinic acid (LVA), succinic acid (SA), malic acid (MA), tartaric acid (TA), and citric acid (CA). Furthermore, 2 wt % BA nicotine salts were studied at the following nicotine to acid ratios: 1:2 (pH 4), 1:1 (pH 7), and 2:1 (pH 8), in comparison with freebase nicotine (pH 10). Radical yields were quantified by spin-trapping and electron paramagnetic resonance (EPR) spectroscopy. The EPR spectra of free radicals in the nicotine salt aerosol matched those generated from the Fenton reaction, which are primarily hydroxyl (OH) radicals and other reactive oxygen species (ROS). Although the aerosol mass formation was not significantly different for most of the tested nicotine salts and acid concentrations, notable ROS yields were observed only from BA, CA, and TA under the study conditions. The e-liquids with SLA, LA, LVA, SA, and MA produced less ROS than the 2 wt % freebase nicotine e-liquid, suggesting that organic acids may play dual roles in the production and scavenging of ROS. For BA nicotine salts, it was found that the ROS yield increased with a higher acid concentration (or a lower nicotine to acid ratio). The observation that BA nicotine salts produce the highest ROS yield in aerosol generated from a fourth-generation vape device, which increases with acid concentration, has important implications for ROS-mediated health outcomes that may be relevant to consumers, manufacturers, and regulatory agencies.

Published

2024

9. Cosmological Consequences of Unconstrained Gravity and Electromagnetism

Author

Del Grosso, Loris, Kaplan, David E, Melia, Tom, Poulin, Vivian, Rajendran, Surjeet, and Smith, Tristan L

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Theory

Abstract

Motivated by the quantum description of gauge theories, we study the cosmological effects of relaxing the Hamiltonian and momentum constraints in general relativity and Gauss' law in electromagnetism. We show that the unconstrained theories have new source terms that mimic a pressureless dust and a charge density that only follows geodesics. The source terms may be the simplest explanation for dark matter and generically predict a charged component. We comment that discovery of such terms would rule out inflation and be a direct probe of the initial conditions of the universe., Comment: 6 pages

Published

2024

10. Borel Complexity of the Isomorphism Relation of Archimedean Orders in Finitely Generated Groups

Author

Poulin, Antoine

Subjects

Mathematics - Logic, Mathematics - Dynamical Systems, Mathematics - Group Theory

Abstract

In 2020, Calderoni, Marker, Motto Ros and Shani asked what the Borel complexity of the isomorphism relation of Archimedean orders on $\mathbb{Q}^n$ is. We answer this question by proving that the isomorphism relation of Archimedean orders on $\mathbb{Z}^n$ is not hyperfinite when $n \geq 3$ and not treeable when $n \geq 4$. As a corollary, we get that the isomorphism relation of Archimedean orders on $\mathbb{Q}^n$ is not hyperfinite when $n \geq 3$ and not treeable when $n \geq 4$.

Published

2024

11. Computational supremacy in quantum simulation

Author

King, Andrew D., Nocera, Alberto, Rams, Marek M., Dziarmaga, Jacek, Wiersema, Roeland, Bernoudy, William, Raymond, Jack, Kaushal, Nitin, Heinsdorf, Niclas, Harris, Richard, Boothby, Kelly, Altomare, Fabio, Berkley, Andrew J., Boschnak, Martin, Chern, Kevin, Christiani, Holly, Cibere, Samantha, Connor, Jake, Dehn, Martin H., Deshpande, Rahul, Ejtemaee, Sara, Farré, Pau, Hamer, Kelsey, Hoskinson, Emile, Huang, Shuiyuan, Johnson, Mark W., Kortas, Samuel, Ladizinsky, Eric, Lai, Tony, Lanting, Trevor, Li, Ryan, MacDonald, Allison J. R., Marsden, Gaelen, McGeoch, Catherine C., Molavi, Reza, Neufeld, Richard, Norouzpour, Mana, Oh, Travis, Pasvolsky, Joel, Poitras, Patrick, Poulin-Lamarre, Gabriel, Prescott, Thomas, Reis, Mauricio, Rich, Chris, Samani, Mohammad, Sheldan, Benjamin, Smirnov, Anatoly, Sterpka, Edward, Clavera, Berta Trullas, Tsai, Nicholas, Volkmann, Mark, Whiticar, Alexander, Whittaker, Jed D., Wilkinson, Warren, Yao, Jason, Yi, T. J., Sandvik, Anders W., Alvarez, Gonzalo, Melko, Roger G., Carrasquilla, Juan, Franz, Marcel, and Amin, Mohammad H.

Subjects

Quantum Physics, Condensed Matter - Disordered Systems and Neural Networks, Condensed Matter - Statistical Mechanics

Abstract

Quantum computers hold the promise of solving certain problems that lie beyond the reach of conventional computers. Establishing this capability, especially for impactful and meaningful problems, remains a central challenge. One such problem is the simulation of nonequilibrium dynamics of a magnetic spin system quenched through a quantum phase transition. State-of-the-art classical simulations demand resources that grow exponentially with system size. Here we show that superconducting quantum annealing processors can rapidly generate samples in close agreement with solutions of the Schr\"odinger equation. We demonstrate area-law scaling of entanglement in the model quench in two-, three- and infinite-dimensional spin glasses, supporting the observed stretched-exponential scaling of effort for classical approaches. We assess approximate methods based on tensor networks and neural networks and conclude that no known approach can achieve the same accuracy as the quantum annealer within a reasonable timeframe. Thus quantum annealers can answer questions of practical importance that classical computers cannot.

Published

2024

12. Water availability and proximity to natural areas influence plant and terrestrial invertebrate communities in urban stormwater basins and ponds

Author

Petit-Prost, Matisse, Poulin, Monique, Desrochers, André, and Lavoie, Isabelle

Published

2024

13. Assessing the contribution of lawns and semi-natural meadows to bee, wasp, and flower fly communities across different landscapes

Author

Cloutier, Sabrina, Mendes, Poliana, Cimon-Morin, Jérôme, Pellerin, Stéphanie, Fournier, Valérie, and Poulin, Monique

Published

2024

14. Procoli: Profiles of cosmological likelihoods

Author

Karwal, Tanvi, Patel, Yashvi, Bartlett, Alexa, Poulin, Vivian, Smith, Tristan L., and Pfeffer, Daniel N.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Frequentist profile likelihoods have seen a resurgence in cosmology, offering an alternative to Bayesian methods as they can circumvent the impact of prior-volume effects. This paper presents Procoli, a fast and accessible package to obtain profile likelihoods in cosmology, available on GitHub and PyPI. Procoli seamlessly integrates with MontePython, incorporating all its available data likelihoods, as well as any modified versions of CLASS. This paper provides a comprehensive overview of the Procoli code, detailing the simulated-annealing optimizer at its core and the sequential computation of the profile. An an example, we use the early dark energy model which is afflicted by prior-volume effects to illustrate the code's features. We validate its optimizer with mock data, and compare optimization techniques for both the global minimum and the profile. Procoli further enables splitting profiles into their component contributions from individual experiments, offering nuanced insights into the data and model. As a valuable addition to the cosmologist's toolkit, Procoli supplements existing Bayesian codes, contributing to more robust parameter constraints in cosmological studies., Comment: 14 pages (9 pages of text), 10 figures. For the associated code, please see https://github.com/tkarwal/procoli/

Published

2024

15. Late sexual transition: Achievement of developmental tasks and well-being in emerging adulthood

Author

Lucas, Ashrah, Poulin, François, and Boislard, Marie-Aude

Published

2024

16. Does heart rate variability using the Newborn Infant Parasympathetic Evaluation index identify postsurgical pain levels and emergence delirium in toddlers? A prospective observational study

Author

Chisling, Sara, Jette, Evan, Engelhardt, Thomas, Ingelmo, Pablo, Poulin-Harnois, Christelle, Garbin, Marta, Wasserman, Samuel, and Bertolizio, Gianluca

Published

2024

17. Linkages between plant functional diversity and soil-based ecosystem services in urban and peri-urban vacant lots

Author

Mendes, Poliana, Bourgeois, Bérenger, Pellerin, Stéphanie, Ziter, Carly D, Cimon-Morin, Jérôme, and Poulin, Monique

Published

2024

18. Updates on Patent Foramen Ovale (PFO) Closure

Author

Voudris, Konstantinos V., Poulin, Marie-France, and Kavinsky, Clifford J.

Published

2024

19. $5 \sigma$ tension between Planck cosmic microwave background and eBOSS Lyman-alpha forest and constraints on physics beyond $\Lambda$CDM

Author

Rogers, Keir K. and Poulin, Vivian

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, High Energy Physics - Phenomenology

Abstract

We find that combined Planck cosmic microwave background, baryon acoustic oscillations and supernovae data analyzed under $\Lambda$CDM are in 4.9$\sigma$ tension with eBOSS Ly$\alpha$ forest in inference of the linear matter power spectrum at wavenumber $\sim 1 h\,\mathrm{Mpc}^{-1}$ and redshift = 3. Model extensions can alleviate this tension: running in the tilt of the primordial power spectrum ($\alpha_\mathrm{s} \sim -0.01$); a fraction $\sim (1 - 5)\%$ of ultra-light axion dark matter (DM) with particle mass $\sim 10^{-25}$ eV or warm DM with mass $\sim 90$ eV. The new DESI survey, coupled with high-accuracy modeling, will help distinguish the source of this discrepancy., Comment: 15 pages, 9 figures. Minor changes to match version submitted to journal, references added

Published

2023

20. Quantum error mitigation in quantum annealing

Author

Amin, Mohammad H., King, Andrew D., Raymond, Jack, Harris, Richard, Bernoudy, William, Berkley, Andrew J., Boothby, Kelly, Smirnov, Anatoly, Altomare, Fabio, Babcock, Michael, Baron, Catia, Connor, Jake, Dehn, Martin, Enderud, Colin, Hoskinson, Emile, Huang, Shuiyuan, Johnson, Mark W., Ladizinsky, Eric, Lanting, Trevor, MacDonald, Allison J. R., Marsden, Gaelen, Molavi, Reza, Oh, Travis, Poulin-Lamarre, Gabriel, Ramp, Hugh, Rich, Chris, Clavera, Berta Trullas, Tsai, Nicholas, Volkmann, Mark, Whittaker, Jed D., Yao, Jason, Heinsdorf, Niclas, Kaushal, Nitin, Nocera, Alberto, and Franz, Marcel

Subjects

Quantum Physics

Abstract

Quantum Error Mitigation (QEM) presents a promising near-term approach to reduce error when estimating expectation values in quantum computing. Here, we introduce QEM techniques tailored for quantum annealing, using Zero-Noise Extrapolation (ZNE). We implement ZNE through zero-temperature extrapolation as well as energy-time rescaling. We conduct experimental investigations into the quantum critical dynamics of a transverse-field Ising spin chain, demonstrating the successful mitigation of thermal noise through both of these techniques. Moreover, we show that energy-time rescaling effectively mitigates control errors in the coherent regime where the effect of thermal noise is minimal. Our ZNE results agree with exact calculations of the coherent evolution over a range of annealing times that exceeds the coherent annealing range by almost an order of magnitude., Comment: 10 pages, 5 figures

Published

2023

21. Improved Planck constraints on axion-like early dark energy as a resolution of the Hubble tension

Author

Efstathiou, George, Rosenberg, Erik, and Poulin, Vivian

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, High Energy Physics - Phenomenology

Abstract

Axion-like early dark energy (EDE) as an extension to $\Lambda$CDM has been proposed as a possible solution to the 'Hubble tension'. We revisit this model using a new cosmic microwave background (CMB) temperature and polarization likelihood constructed from the {\it Planck} NPIPE data release. In a Bayesian analysis, we find that the maximum fractional contribution of EDE to the total energy density is $f_{\rm EDE} < 0.061$ (without SH0ES) over the redshift range $z\in[10^3,10^4]$ and that the Hubble constant is constrained to lie within the range $ 66.9 < H_0 < 69.5$ km/s/Mpc (both at 95 \% C.L.). The data therefore favour a model close to $\Lambda$CDM, leaving a residual tension of $3.7\sigma$ with the SH$0$ES Cepheid-based measurement of $H_0$. A comparison with the likelihood profile shows that our conclusions are robust to prior-volume effects. Our new CMB likelihood provides no evidence in favour of a significant EDE component., Comment: 4 pages, 3 figures, comments welcome

Published

2023

22. New Mass and Radius Constraints on the LHS 1140 Planets -- LHS 1140 b is Either a Temperate Mini-Neptune or a Water World

Author

Cadieux, Charles, Plotnykov, Mykhaylo, Doyon, René, Valencia, Diana, Jahandar, Farbod, Dang, Lisa, Turbet, Martin, Fauchez, Thomas J., Cloutier, Ryan, Cherubim, Collin, Artigau, Étienne, Cook, Neil J., Edwards, Billy, Hallatt, Tim, Charnay, Benjamin, Bouchy, François, Allart, Romain, Mignon, Lucile, Baron, Frédérique, Barros, Susana C. C., Benneke, Björn, Martins, B. L. Canto, Cowan, Nicolas B., De Medeiros, J. R., Delfosse, Xavier, Delgado-Mena, Elisa, Dumusque, Xavier, Ehrenreich, David, Hara, Nathan C., Lafrenière, David, Frensch, Yolanda G. C., Hernández, J. I. González, Curto, Gaspare Lo, Malo, Lison, Melo, Claudio, Mounzer, Dany, Passeger, Vera Maria, Pepe, Francesco, Poulin-Girard, Anne-Sophie, Santos, Nuno C., Sosnowska, Danuta, Mascareño, Alejandro Suárez, Thibault, Simon, Vaulato, Valentina, Wade, Gregg A., and Wildi, François

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

The two-planet transiting system LHS 1140 has been extensively observed since its discovery in 2017, notably with $Spitzer$, HST, TESS, and ESPRESSO, placing strong constraints on the parameters of the M4.5 host star and its small temperate exoplanets, LHS 1140 b and c. Here, we reanalyse the ESPRESSO observations of LHS 1140 with the novel line-by-line framework designed to fully exploit the radial velocity content of a stellar spectrum while being resilient to outlier measurements. The improved radial velocities, combined with updated stellar parameters, consolidate our knowledge on the mass of LHS 1140 b (5.60$\pm$0.19 M$_{\oplus}$) and LHS 1140 c (1.91$\pm$0.06 M$_{\oplus}$) with unprecedented precision of 3%. Transits from $Spitzer$, HST, and TESS are jointly analysed for the first time, allowing us to refine the planetary radii of b (1.730$\pm$0.025 R$_{\oplus}$) and c (1.272$\pm$0.026 R$_{\oplus}$). Stellar abundance measurements of refractory elements (Fe, Mg and Si) obtained with NIRPS are used to constrain the internal structure of LHS 1140 b. This planet is unlikely to be a rocky super-Earth as previously reported, but rather a mini-Neptune with a $\sim$0.1% H/He envelope by mass or a water world with a water-mass fraction between 9 and 19% depending on the atmospheric composition and relative abundance of Fe and Mg. While the mini-Neptune case would not be habitable, a water-abundant LHS 1140 b potentially has habitable surface conditions according to 3D global climate models, suggesting liquid water at the substellar point for atmospheres with relatively low CO$_2$ concentration, from Earth-like to a few bars., Comment: 31 pages, 18 figures, accepted for publication in ApJL

Published

2023

23. Bayesian and frequentist investigation of prior effects in EFTofLSS analyses of full-shape BOSS and eBOSS data

Author

Holm, Emil Brinch, Herold, Laura, Simon, Théo, Ferreira, Elisa G. M., Hannestad, Steen, Poulin, Vivian, and Tram, Thomas

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, High Energy Physics - Phenomenology

Abstract

Previous studies based on Bayesian methods have shown that the constraints on cosmological parameters from the Baryonic Oscillation Spectroscopic Survey (BOSS) full-shape data using the Effective Field Theory of Large Scale Structure (EFTofLSS) depend on the choice of prior on the EFT nuisance parameters. In this work, we explore this prior dependence by adopting a frequentist approach based on the profile likelihood method, which is inherently independent of priors, considering data from BOSS, eBOSS and Planck. We find that the priors on the EFT parameters in the Bayesian inference are informative and that prior volume effects are important. This is reflected in shifts of the posterior mean compared to the maximum likelihood estimate by up to 1.0 {\sigma} (1.6 {\sigma}) and in a widening of intervals informed from frequentist compared to Bayesian intervals by factors of up to 1.9 (1.6) for BOSS (eBOSS) in the baseline configuration, while the constraints from Planck are unchanged. Our frequentist confidence intervals give no indication of a tension between BOSS/eBOSS and Planck. However, we find that the profile likelihood prefers extreme values of the EFT parameters, highlighting the importance of combining Bayesian and frequentist approaches for a fully nuanced cosmological inference. We show that the improved statistical power of future data will reconcile the constraints from frequentist and Bayesian inference using the EFTofLSS., Comment: 20 pages, 8 figures, 6 tables

Published

2023

24. Current small-scale CMB constraints to axion-like early dark energy

Author

Smith, Tristan L. and Poulin, Vivian

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

The SPT-3G 2018 TT/TE/EE cosmic microwave background (CMB) data set (temperature and polarization) is used to place constraints on an axion-like model of early dark energy (EDE). These data do not favor axion-like EDE and place an upper limit on the maximum fraction of the total energy density $f_{\rm EDE}< 0.172$ (at the 95% confidence level, CL). This is in contrast with ACT DR4 which gives $f_{\rm EDE}=0.150^{+0.050}_{-0.078}$. When combining CMB measurements with measurements of the baryon acoustic oscillations and luminosity distance to Type Ia supernovae, we show that the tension with the S$H_0$ES measurement of the Hubble parameter goes up from 2.6$\sigma$ with Planck to 2.9$\sigma$ with Planck+SPT-3G 2018. The additional inclusion of ACT DR4 data leads to a reduction of the tension to $1.6\sigma$, but the discrepancy between ACT DR4 and Planck+SPT-3G 2018 casts some doubt on the statistical consistency of this joint analysis. The importance of improved measurements of the CMB at both intermediate and small scales (in particular the shape of the damping tail) as well as the interplay between temperature and polarization measurements in constraining EDE are discussed. Upcoming ground-based measurements of the CMB will play a crucial role in determining whether EDE remains a viable model to address the Hubble tension., Comment: 15 pages, 10 figures, comments welcome!

Published

2023

25. Early Dark Energy beyond slow-roll: implications for cosmic tensions

Author

Sharma, Ravi Kumar, Das, Subinoy, and Poulin, Vivian

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

In this work, we explore the possibility that Early Dark Energy (EDE) is dynamical in nature and study its effect on cosmological observables. We introduce a parameterization of the equation of state allowing for an equation of state $w$ differing considerably from cosmological constant (cc, $w={-1}$) and vary both the initial $w_i$ as well final $w_f$ equation of state of the EDE fluid. This idea is motivated by the fact that in many models of EDE, the scalar field may have some kinetic energy when it starts to behave like EDE before the CMB decoupling. We find that the present data have a mild preference for non-cc early dark energy $( w_i= -0.78)$ using Planck+BAO+Pantheon+S$H_0$ES data sets, leading to $\Delta \chi^2_{\rm min}$ improvement of -2.5 at the expense of one more parameter. However, $w_i$ is only weakly constrained, with $w_i < -0.56$ at $1\sigma$. We argue that allowing for $w_i\neq -1$ can play a role in decreasing the $\sigma_8$ parameter. Yet, in practice the decrease is only $\sim0.4\sigma$ and $\sigma_8$ is still larger than weak lensing measurements. We conclude that while promising, a dynamical EDE cannot resolve both $H_0$ and $\sigma_8$ tensions simultaneously., Comment: 8 figures, Comments are most welcome

Published

2023

26. Simulated Sea Level Rise in Coastal Peat Soils Stimulates Mercury Methylation

Author

Cook, Bryce A, Peterson, Benjamin D, Ogorek, Jacob M, Janssen, Sarah E, and Poulin, Brett A

Subjects

Earth Sciences, Chemical Sciences, Physical Sciences, sea level rise, methylmercury, Florida Everglades, peat soils, methylation, sulfate, Chemical sciences, Earth sciences, Physical sciences

Abstract

Coastal wetlands are vulnerable to sea level rise with unknown consequences for mercury (Hg) cycling, particularly the potential for exacerbating neurotoxic methylmercury (MeHg) production and bioaccumulation in food webs. Here, the effect of sea level rise on MeHg formation in the Florida Everglades was evaluated by incubating peat cores from a freshwater wetland for 0-20 days in the laboratory at five salinity conditions (0.16-6.0 parts-per-thousand; 0.20-454 mg L-1 sulfate (SO42-)) to simulate the onset of sea level rise within coastal margins. Isotopically enriched inorganic mercury (201Hg(II)) was used to track MeHg formation and peat-porewater partitioning. In all five salinity treatments, porewaters became anoxic within 1 day and became progressively enriched in dissolved organic matter (DOM) of greater aromatic composition over the 20 days compared to ambient conditions. In the four highest salinity treatments, SO42- concentrations decreased and sulfide concentrations increased over time due to microbial dissimilatory SO42- reduction that was concurrent with 201Hg(II) methylation. Importantly, elevated salinity resulted in a greater proportion of produced Me201Hg observed in porewaters as opposed to bound to peat, interpreted to be due to the complexation of MeHg with aromatic DOM released from peat. The findings highlight the potential for enhanced production and mobilization of MeHg in coastal wetlands of the Florida Everglades due to the onset of saltwater intrusion.

Published

2024

27. Competition between Dissolved Organic Matter and Freshwater Plankton Control Methylmercury Isotope Fractionation during Uptake and Photochemical Demethylation.

Author

Armstrong, Grace, Janssen, Sarah, Tate, Michael, Krabbenhoft, David, Hurley, James, and Poulin, Brett

Abstract

Isotope fractionation related to photochemical reactions and planktonic uptake at the base of the food web is a major uncertainty in the biological application of mercury (Hg) stable isotopes. In freshwater systems, it is unclear how competitive interactions among methylmercury (MeHg), dissolved organic matter (DOM), and phytoplankton govern the magnitude of mass-dependent and mass-independent fractionation. This study investigated how DOM alters rates of planktonic MeHg uptake and photodegradation and corresponding Hg isotope fractionation in the presence of freshwater phytoplankton species, Raphidocelis subcapitata. Outdoor sunlight exposure experiments utilizing R. subcapitata were performed in the presence of different DOM samples using environmentally relevant ratios of MeHg-DOM thiol groups. The extent of Δ199Hg in phytoplankton incubations (2.99‰ St. Louis River HPOA, 1.88‰ Lake Erie HPOA) was lower compared to paired abiotic control experiments (4.29 and 2.86‰, respectively) after ∼30 h of irradiation, resulting from cell shading or other limiting factors reducing the extent of photodemethylation. Although the Δ199Hg/Δ201Hg ratio was uniform across experiments (∼1.4), Δ199Hg/δ202Hg slopes varied dramatically (from -0.96 to 15.4) across incubations with R. subcapitata and DOM. In addition, no evidence of Hg isotope fractionation was observed within R. subcapitata cells. This study provides a refined examination of Hg isotope fractionation markers for key processes occurring in the lower food web prior to bioaccumulation, critical for accurately accounting for the photochemical processing of Hg isotopes across a wide spectrum of freshwater systems.

Published

2023

28. Towards sustainable agricultural landscapes: Lessons from an interdisciplinary research-based framework applied to the Saint Lawrence floodplain

Author

Christopher J Watson, Renata Mazzei, Bérenger Bourgeois, Élise Smedbol, Noé Guiraud, Jim Félix-Faure, Hada Damar, Maxime Tremblay, Pierre-Andé Bordeleau, Mathieu Vaillancourt, Andrea Bertolo, Gilbert Cabana, Stephane Campeau, Maurice Doyon, Valérie Fournier, Vincent Fugère, Valérie Gravel, François Guillemette, Caroline Halde, Jessica A Head, Cynthia M Kallenbach, Nathalie Lewis, Vincent Maire, Patrick Mundler, Monique Poulin, Shiv O Prasher, Zhiming Qi, Marco A Rodriguez, Alexandre Roy, Denis Roy, Julie Ruiz, Christian von Sperber, Lota D Tamini, Philippe Seguin, Anne Vanasse, and Raphaël Proulx

Subjects

Floodplain, Sustainable agriculture, Land use change, Socio-economics, Research framework, Multi-use landscapes, Ecology, QH540-549.5

Abstract

Floodplains are unique environments that provide a dynamic link between terrestrial and aquatic systems. Intensification of human activity – particularly agriculture and urbanisation – has resulted in the degradation of floodplains worldwide. Restoration and sustainable management of floodplains requires holistic assessment and compromise between stakeholders to successfully balance environmental, economic, and social benefits. Yet, understanding these complex systems sufficiently to provide evidence-based recommendations is a challenge. We present the lessons learned from establishing an interdisciplinary research-based framework on the agricultural floodplain of Lake Saint Pierre, Québec, Canada, whose mandate was to a) understand and define key environmental, agricultural, and socioeconomic attributes of the landscape, b) quantify the trade-offs and synergies between these attributes across different agricultural practices, regions, and land uses, and c) explore novel agri-environmental management practices to assess their role in sustainable floodplain management. Within this manuscript, we explore the benefits that such an approach offers in evaluating sustainable floodplain land use. We found that an interdisciplinary research-based approach demonstrated important benefits such as knowledge transfer, more efficient use of resources (e.g., personnel, funding), and a flexible yet robust research framework. A framework of individual research projects connected to broader interdisciplinary themes allowed a more holistic synthesis of the floodplain systems and assessment of agri-environmental practices. By implicitly considering spatial and social scales, we conceptualised not just how redistribution of the land use types can meet sustainable management objectives, but also explored how compromises within existing uses can optimise socio-economic, agricultural and environmental dimensions and move towards a sustainable multifunctional landscape.

Published

2024

29. Real-life experience with IV dalbavancin in Canada; results from the CLEAR (Canadian LEadership on Antimicrobial Real-life usage) registry

Author

George Zhanel, Michael Silverman, Janhavi Malhotra, Melanie Baxter, Reza Rahimi, Neal Irfan, Gabriel Girouard, Rita Dhami, Melissa Kucey, Vida Stankus, Kristin Schmidt, Sébastien Poulin, William Connors, Carlo Tascini, Andrew Walkty, and James Karlowsky

Subjects

Dalbavancin, Clear, Efficacy, MRSA, Absssi, Endocarditis, Microbiology, QR1-502

Abstract

ABSTRACT: Objectives: We report the use of IV dalbavancin in Canadian patients using data captured by the national CLEAR registry. Methods: The CLEAR registry uses the web-based data management program, REDCap™ (online survey https://rcsurvey.radyfhs.umanitoba.ca/surveys/?s=TPMWJX98HL) to facilitate clinicians entering details associated with their clinical experiences using IV dalbavancin. Results: Data were available for 40 patients. The most common infections treated were acute bacterial skin and skin structure infection (ABSSSI) (62.5% of patients), bone/joint infection (22.5%), bloodstream/vascular infection (7.5%) and endocarditis (5.0%). Dalbavancin was used as directed (75.0%) and empiric therapy (25.0%). MRSA was the most common identified pathogen (70.0%). Dalbavancin was used both in outpatient (e.g., emergency department) (65.0%), and inpatient treatment settings (e.g., hospital ward) (35.0%). Dalbavancin was used due to the convenience of a single dose treatment (77.5%) as well as to facilitate hospital discharge (7.5%). Dalbavancin was primarily used alone (90.0%), and most commonly using a single 1500 mg dose (77.5%). Microbiological success (pathogen eradicated or presumed eradicated) occurred in 88.2% of known cases, while clinical success (cure and/or improvement) occurred in 93.3% of known cases. No adverse events were reported. Conclusions: In Canada, IV dalbavancin is used as both directed and empiric therapy to treat ABSSSI as well as off-label (bone/joint, bacteremia/vascular, endocarditis, device-related) infections. It is used in both outpatient and inpatient settings due primarily to its convenience as a single-dose treatment regimen and to facilitate early hospital discharge. Dalbavancin use is associated with high microbiological and clinical cure rates along with an excellent safety profile.

Published

2024

30. Defining Different Modes of Learning: Resolving Confusion and Contention through Consensus

Author

Johnson, Nicole, Seaman, Jeff, and Poulin, Russ

Abstract

There has been longstanding contention about how terms related to online and hybrid learning should be defined. In this study, we report survey findings on how administrators and faculty apply the following terms in practice: online learning, hybrid learning, hyflex learning, in-person learning, synchronous learning, and asynchronous learning. Drawing upon the literature, the research team developed survey definitions for each of these terms. The survey then asked participants to rate the extent to which they agreed with the survey definitions. A total of 987 faculty and 1,051 administrators participated in the study. Participants represented the full range of higher education institutions in the United States. The key finding from the study is that there was widespread agreement with the survey definitions, which is contrary to much of the literature that indicates confusion and contention about how online and hybrid learning terms should be defined. In light of the findings, we provide a framework for categorizing common learning modes and the variations that exist within these modes. This study provides a foundation for establishing common language and shared understandings as online and hybrid course offerings (and learning technologies, in general) continue to evolve.

Published

2022

31. Learning to Name Uppercase and Lowercase Letters in Preschoolers and Kindergarteners: An Investigation of the Effects of Child- and Letter-Related Factors

Author

Annie Vinter, Patrick Bard, Helle Lukowski-Duplessy, and Bénédicte Poulin-Charronnat

Abstract

Research Findings: Letter name knowledge (LNK) is essential for a good start in learning to read. However, the literature shows conflicting results. Using an associative learning theory framework, the present study examined the influence of child and letter characteristics on LNK in French-speaking children. Children aged 3 to 5-6 years were asked to name the 26 letters of the alphabet printed in uppercase (Study 1) or printed or cursive lowercase (Study 2). Several effects on their naming scores were tested: gender, letters in the first name, letter frequency in print, letter rank in the alphabet, shape similarity between letter cases, and phonological effects related to letter name type. Learning to name uppercase letters relied primarily on knowledge of the personal name letters, whereas learning to name lowercase letters relied heavily on the similarity in shape of these letters to their uppercase counterparts (or for cursive letters, to their lowercase printed analogs). Practice or Policy: Some practical consequences are drawn from the associative learning perspective, such as pairing uppercase and lowercase letters with their name and sound at the same time. In addition, grouping letters according to their shape stability through their case may be an advantageous strategy for teaching letter names.

Published

2024

32. Barriers to Involvement in Parenting Activities in School-Based Preschools in Disadvantaged Neighbourhoods in Canada

Author

Julie Poissant, Stephanie Langheit, France Capuano, Christa Japel, and François Poulin

Abstract

Preschool is a particularly opportune time to introduce measures that promote parental school-based involvement, as this is when the initial contact with the school is made. In Québec, a French-speaking province in Canada, voluntary school-based preschools for 4-year-olds have been offered to families in disadvantaged neighbourhoods. A component for parents comprised of 10 activities was developed specifically to promote parent involvement from the beginning of their child's schooling. However, some parents are more likely than others to encounter barriers that curtail their participation in these activities. Seventeen teachers working in preschools for 4-year-olds in targeted areas and 25 of their parents participated in this qualitative study. The study's objective was to identify the barriers to participation among parents whose involvement in school activities during the school year was low. Based on Hornby and Lafaele's conceptual model, a phronetic iterative analysis was used to describe the experiences reported by teachers and parents. Finally, the four main findings emerging from this study were formulated, and avenues for reflection by school-based preschool personnel were put forward.

Published

2024

33. Tree-like graphings, wallings, and median graphings of equivalence relations

Author

Chen, Ruiyuan, Poulin, Antoine, Tao, Ran, and Tserunyan, Anush

Subjects

Mathematics - Logic, Mathematics - Combinatorics, Mathematics - Dynamical Systems, Mathematics - Group Theory, 03E15, 20F65, 20E08, 37A20

Abstract

We prove several results showing that every locally finite Borel graph whose large-scale geometry is "tree-like" induces a treeable equivalence relation. In particular, our hypotheses hold if each component of the original graph either has bounded tree-width or is quasi-isometric to a tree, answering a question of Tucker-Drob. In the latter case, we moreover show that there exists a Borel quasi-isometry to a Borel forest, under the additional assumption of (componentwise) bounded degree. We also extend these results on quasi-treeings to Borel proper metric spaces. In fact, our most general result shows treeability of countable Borel equivalence relations equipped with an abstract wallspace structure on each class obeying some local finiteness conditions, which we call a proper walling. The proof is based on the Stone duality between proper wallings and median graphs, i.e., CAT(0) cube complexes. Finally, we strengthen the conclusion of treeability in these results to hyperfiniteness in the case where the original graph has one (selected) end per component, generalizing the same result for trees due to Dougherty--Jackson--Kechris., Comment: 42 pages; added section 6.B on one selected end

Published

2023

34. Probing Early Modification of Gravity with Planck, ACT and SPT

Author

Abellán, Guillermo Franco, Braglia, Matteo, Ballardini, Mario, Finelli, Fabio, and Poulin, Vivian

Subjects

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

Abstract

We consider a model of early modified gravity (EMG) that was recently proposed as a candidate to resolve the Hubble tension. The model consists in a scalar field $\sigma$ with a non-minimal coupling (NMC) to the Ricci curvature of the form $F(\sigma) = M_{\mathrm{pl}}^2+\xi\sigma^2$ and an effective mass induced by a quartic potential $V(\sigma) = \lambda \sigma^4/4$. We present the first analyses of the EMG model in light of the latest ACT DR4 and SPT-3G data in combination with full Planck data, and find a $\gtrsim 2\sigma$ preference for a non-zero EMG contribution from a combination of primary CMB data alone, mostly driven by ACT DR4 data. This is different from popular 'Early Dark Energy' models, which are detected only when the high-$\ell$ information from Planck temperature is removed. We find that the NMC plays a key role in controlling the evolution of density perturbations that is favored by the data over the minimally coupled case. Including measurements of supernovae luminosity distance from Pantheon+, baryonic acoustic oscillations and growth factor from BOSS, and CMB lensing of Planck leaves the preference unaffected. In the EMG model, the tension with S$H_0$ES is alleviated from $\sim 6\sigma$ to $\sim 3\sigma$. Further adding S$H_0$ES data rise the detection of the EMG model above $5\sigma$., Comment: 25 pages, 9 figures, 5 tables. Added minor corrections. v2 matches the published JCAP version. Comments welcome!

Published

2023

35. Metabolically diverse microorganisms mediate methylmercury formation under nitrate-reducing conditions in a dynamic hydroelectric reservoir.

Author

Krabbenhoft, David, Tate, Michael, Baldwin, Austin, Naymik, Jesse, Gastelecutto, Nick, McMahon, Katherine, Poulin, Brett, and Peterson, Ben

Subjects

Animals, Methylmercury Compounds, Nitrates, Manganese, Mercury, Archaea, Water Pollutants, Chemical

Abstract

Brownlee Reservoir is a mercury (Hg)-impaired hydroelectric reservoir that exhibits dynamic hydrological and geochemical conditions and is located within the Hells Canyon Complex in Idaho, USA. Methylmercury (MeHg) contamination in fish is a concern in the reservoir. While MeHg production has historically been attributed to sulfate-reducing bacteria and methanogenic archaea, microorganisms carrying the hgcA gene are taxonomically and metabolically diverse and the major biogeochemical cycles driving mercury (Hg) methylation are not well understood. In this study, Hg speciation and redox-active compounds were measured throughout Brownlee Reservoir across the stratified period in four consecutive years (2016-2019) to identify the location where and redox conditions under which MeHg is produced. Metagenomic sequencing was performed on a subset of samples to characterize the microbial community with hgcA and identify possible links between biogeochemical cycles and MeHg production. Biogeochemical profiles suggested in situ water column Hg methylation was the major source of MeHg. These profiles, combined with genome-resolved metagenomics focused on hgcA-carrying microbes, indicated that MeHg production occurs in this system under nitrate- or manganese-reducing conditions, which were previously thought to preclude Hg-methylation. Using this multidisciplinary approach, we identified the cascading effects of interannual variability in hydrology on the redox status, microbial metabolic strategies, abundance and metabolic diversity of Hg methylators, and ultimately MeHg concentrations throughout the reservoir. This work expands the known conditions conducive to producing MeHg and suggests that the Hg-methylation mitigation efforts by nitrate or manganese amendment may be unsuccessful in some locations.

Published

2023

36. Carbonyls and Aerosol Mass Generation from Vaping Nicotine Salt Solutions Using Fourth- and Third-Generation E-Cigarette Devices: Effects of Coil Resistance, Coil Age, and Coil Metal Material.

Author

Tran, Lillian, Chiu, Elizabeth, Hunsaker, Haylee, Wu, Kuan-Chen, Madl, Amy, Pinkerton, Kent, Nguyen, Tran, and Poulin, Brett

Abstract

Aerosol formation and production yields from 11 carbonyls (carbonyl concentration per aerosol mass unit) were investigated (1) from a fourth-generation (4th gen) e-cigarette device at different coil resistances and coil age (0-5000 puffs) using unflavored e-liquid with 2% benzoic acid nicotine salt, (2) between a sub-ohm third-generation (3rd gen) tank mod at 0.12 Ω and a 4th gen pod at 1.2 Ω using e-liquid with nicotine salt, together with nicotine yield, and (3) from 3rd gen coils of different metals (stainless steel, kanthal, nichrome) using e-liquid with freebase nicotine. Coil resistance had an inverse relationship with coil temperature, and coil temperature was directly proportional to aerosol mass formation. Trends in carbonyl yields depended on carbonyl formation mechanisms. Carbonyls produced primarily from thermal degradation chemistry (e.g., formaldehyde, acetaldehyde, acrolein, propionaldehyde) increased per aerosol mass with higher coil resistances, despite lower coil temperature. Carbonyls produced primarily from chemistry initiated by reactive oxygen species (ROS) (e.g., hydroxyacetone, dihydroxyacetone, methylglyoxal, glycolaldehyde, lactaldehyde) showed the opposite trend. Coil age did not alter coil temperature nor aerosol mass formation but had a significant effect on carbonyl formation. Thermal carbonyls were formed optimally at 500 puffs in our study and then declined to a baseline, whereas ROS-derived carbonyls showed a slow rise to a maximum trend with coil aging. The 3rd gen versus 4th gen device comparison mirrored the trends in coil resistance. Nicotine yields per aerosol mass were consistent between 3rd and 4th gen devices. Coil material did not significantly alter aerosol formation nor carbonyl yield when adjusted for wattage. This work shows that sub-ohm coils may not necessarily produce higher carbonyl yields even when they produce more aerosol mass. Furthermore, carbonyl formation is dynamic and not generalizable during the coils lifetime. Finally, studies that compare data across different e-cigarette devices, coil age, and coil anatomy should account for the aerosol chemistry trends that depend on these parameters.

Published

2023

37. The genomic footprint of whaling and isolation in fin whale populations.

Author

Nigenda-Morales, Sergio, Lin, Meixi, Nuñez-Valencia, Paulina, Kyriazis, Christopher, Beichman, Annabel, Robinson, Jacqueline, Ragsdale, Aaron, Urbán R, Jorge, Archer, Frederick, Viloria-Gómora, Lorena, Pérez-Álvarez, María, Poulin, Elie, Lohmueller, Kirk, Moreno-Estrada, Andrés, and Wayne, Robert

Subjects

Humans, Animals, Fin Whale, Genomics, Industry

Abstract

Twentieth century industrial whaling pushed several species to the brink of extinction, with fin whales being the most impacted. However, a small, resident population in the Gulf of California was not targeted by whaling. Here, we analyzed 50 whole-genomes from the Eastern North Pacific (ENP) and Gulf of California (GOC) fin whale populations to investigate their demographic history and the genomic effects of natural and human-induced bottlenecks. We show that the two populations diverged ~16,000 years ago, after which the ENP population expanded and then suffered a 99% reduction in effective size during the whaling period. In contrast, the GOC population remained small and isolated, receiving less than one migrant per generation. However, this low level of migration has been crucial for maintaining its viability. Our study exposes the severity of whaling, emphasizes the importance of migration, and demonstrates the use of genome-based analyses and simulations to inform conservation strategies.

Published

2023

38. Genotype-phenotype correlation in CLCN4-related developmental and epileptic encephalopathy

Author

Sahly, Ahmed N., Sierra-Marquez, Juan, Bungert-Plümke, Stefanie, Franzen, Arne, Mougharbel, Lina, Berrahmoune, Saoussen, Dassi, Christelle, Poulin, Chantal, Srour, Myriam, Guzman, Raul E., and Myers, Kenneth A.

Published

2024

39. Trajectories of Goth Music Preferences in Adolescence and Psychological Adjustment in Adulthood

Author

McConnell, Catherine, Poulin, François, White-Gosselin, Charles-Étienne, and Lacourse, Éric

Published

2024

40. Effects of Thermal Modification on the Flexure Properties, Fracture Energy, and Hardness of Western Hemlock

Author

Nakagawa, Troy, Poulin, Erik, Rueppel, Talbot, Chen, Zhisong, Swinea, Juliet, O'Brien, Mark, Houser, Guy, Wood, Geoffrey, Weinheimer, Malloree, Bahmani, Pouria, Stynoski, Peter, and Salviato, Marco

Subjects

Condensed Matter - Soft Condensed Matter

Abstract

This study investigates the effect of thermal modification on the flexural properties, transverse fracture energy, and hardness of western hemlock, a material which is finding increasing applications in construction. Flexure tests on specimens featuring longitudinal and transverse grains showed that thermal modification at 167C slightly improves the flexural modulus and strength and leads to less statistical variability compared to unmodified samples. On the other hand, the fracture and Janka hardness tests revealed a more pronounced brittleness of the thermally modified samples. In fact, the total mode I fracture energy of modified Single Edge Notch Bending (SENB) samples was about 47% lower for radial-longitudinal systems and 60% lower for tangential-longitudinal systems. Similarly, the average Janka hardness in the tangential, radial, and transverse planes was 8.5%, 3.9%, and 9.4% lower in the modified specimens, respectively. The results presented in this work show that thermal modification can have a significant effect on the fracturing behavior of western hemlock and its energy dissipation capabilities. For design, this must be taken into serious consideration as these properties significantly influence the damage tolerance of this wood in the presence of stress concentrations such as e.g., those induced in bolted joints and cut outs. Fracture energy and hardness are also strongly correlated to ballistic performance., Comment: 27 pages, 25 figures

Published

2023

41. Communication Challenges for People with Chronic Aphasia: A Systematic Qualitative Review of Barriers and Facilitators in Local Services

Author

Sarah-Ève Poirier, Laurie-Anne Voyer, Valérie Poulin, Marie-Eve Lamontagne, and Laura Monetta

Subjects

aphasia, participation, local services, barriers and facilitators, Vocational rehabilitation. Employment of people with disabilities, HD7255-7256

Abstract

Aphasia is an acquired communication disorder caused by a cerebral lesion, such as a stroke. People with aphasia can experience various difficulties that may involve speaking, listening, reading, or writing. These difficulties have multiple impacts on their expression of their needs, interests, and opinions. Accordingly, people with aphasia often encounter barriers and facilitators when using local services, which reduces their participation. For instance, grocery shopping or going to a coffee house can be challenging for them. Hence, this systematic review was conducted to synthetize the barriers and facilitators for people with aphasia when using local services. Following the Enhancing Transparency in Reporting the Synthesis of Qualitative Research guidelines, five databases and Google Scholar were searched for the literature published through April 2024. A total of nine studies were included in the present work. The results highlight that most of the barriers to communicational access to local services are environmental ones related to other people or society. A few environmental facilitators were mentioned, but these were mainly a reflection of the barriers. Personal facilitators were noted, but people with aphasia said that they were insufficient for counterbalancing environmental barriers. The results highlight the need to raise awareness of aphasia.

Published

2024

42. Engaging Mood Brain Circuits with Psilocybin (EMBRACE): a study protocol for a randomized, placebo-controlled and delayed-start, neuroimaging trial in depression

Author

Joshua M. Poulin, Gregory E. Bigford, Krista L. Lanctôt, Peter Giacobbe, Ayal Schaffer, Mark Sinyor, Jennifer S. Rabin, Mario Masellis, Amit Singnurkar, Christopher B. Pople, Nir Lipsman, Muhammad I. Husain, Joshua D. Rosenblat, Xingshan Cao, Bradley J. MacIntosh, and Sean M. Nestor

Subjects

Psilocybin, Psychedelics, Major depressive disorder, Depression, Functional magnetic resonance imaging, Arterial spin labelling, Medicine (General), R5-920

Abstract

Abstract Background Major depressive disorder (MDD) is a leading cause of disability worldwide across domains of health and cognition, affecting overall quality of life. Approximately one third of individuals with depression do not fully respond to treatments (e.g., conventional antidepressants, psychotherapy) and alternative strategies are needed. Recent early phase trials suggest psilocybin may be a safe and efficacious intervention with rapid-acting antidepressant properties. Psilocybin is thought to exert therapeutic benefits by altering brain network connectivity and inducing neuroplastic changes that endure for weeks post-treatment. Although early clinical results are encouraging, psilocybin’s acute neurobiological effects on neuroplasticity have not been fully investigated. We aim to examine for the first time how psilocybin acutely (intraday) and subacutely (weeks) alters functional brain networks implicated in depression. Methods Fifty participants diagnosed with MDD or persistent depressive disorder (PDD) will be recruited from a tertiary mood disorders clinic and undergo 1:1 randomization into either an experimental or control arm. Participants will be given either 25 mg psilocybin or 25 mg microcrystalline cellulose (MCC) placebo for the first treatment. Three weeks later, those in the control arm will transition to receiving 25 mg psilocybin. We will investigate whether treatments are associated with changes in arterial spin labelling and blood oxygenation level-dependent contrast neuroimaging assessments at acute and subacute timepoints. Primary outcomes include testing whether psilocybin demonstrates acute changes in (1) cerebral blood flow and (2) functional brain activity in networks associated with mood regulation and depression when compared to placebo, along with changes in MADRS score over time compared to placebo. Secondary outcomes include changes across complementary clinical psychiatric, cognitive, and functional scales from baseline to final follow-up. Serum peripheral neurotrophic and inflammatory biomarkers will be collected at baseline and follow-up to examine relationships with clinical response, and neuroimaging measures. Discussion This study will investigate the acute and additive subacute neuroplastic effects of psilocybin on brain networks affected by depression using advanced serial neuroimaging methods. Results will improve our understanding of psilocybin’s antidepressant mechanisms versus placebo response and whether biological measures of brain function can provide early predictors of treatment response. Trial registration ClinicalTrials.gov Identifier: NCT06072898. Registered on 6 October 2023.

Published

2024

43. Nomenclatural stability and the longevity of helminth species names

Author

Poulin, Robert and Presswell, Bronwen

Published

2024

44. Environmental formation of methylmercury is controlled by synergy of inorganic mercury bioavailability and microbial mercury‐methylation capacity

Author

Peterson, Benjamin D, Krabbenhoft, David P, McMahon, Katherine D, Ogorek, Jacob M, Tate, Michael T, Orem, William H, and Poulin, Brett A

Subjects

Microbiology, Biological Sciences, Genetics, Methylmercury Compounds, Mercury, Methylation, Biological Availability, Microbiota, Water Pollutants, Chemical, Evolutionary Biology, Ecology

Abstract

Methylmercury (MeHg) production is controlled by the bioavailability of inorganic divalent mercury (Hg(II)i ) and Hg-methylation capacity of the microbial community (conferred by the hgcAB gene cluster). However, the relative importance of these factors and their interaction in the environment remain poorly understood. Here, metagenomic sequencing and a full-factorial MeHg formation experiment were conducted across a wetland sulfate gradient with different microbial communities and pore water chemistries. From this experiment, the relative importance of each factor on MeHg formation was isolated. Hg(II)i bioavailability correlated with the dissolved organic matter composition, while the microbial Hg-methylation capacity correlated with the abundance of hgcA genes. MeHg formation responded synergistically to both factors. Notably, hgcA sequences were from diverse taxonomic groups, none of which contained genes for dissimilatory sulfate reduction. This work expands our understanding of the geochemical and microbial constraints on MeHg formation in situ and provides an experimental framework for further mechanistic studies.

Published

2023

45. Selective Photochemical Oxidation of Reduced Dissolved Organic Sulfur to Inorganic Sulfate.

Author

Poulin, Brett A

Subjects

Life Below Water, Dissolved organic sulfur, Desulfurization, DOM photochemistry, S-XANES, Environmental Science and Management, Environmental Engineering, Environmental Biotechnology

Abstract

The chemical nature and stability of reduced dissolved organic sulfur (DOSRed) have implications on the biogeochemical cycling of trace and major elements across fresh and marine aquatic environments, but the underlying processes governing DOSRed stability remain obscure. Here, dissolved organic matter (DOM) was isolated from a sulfidic wetland, and laboratory experiments quantified dark and photochemical oxidation of DOSRed using atomic-level measurement of sulfur X-ray absorption near-edge structure (XANES) spectroscopy. DOSRed was completely resistant to oxidation by molecular oxygen in the dark and underwent rapid and quantitative oxidation to inorganic sulfate (SO42-) in the presence of sunlight. The rate of DOSRed oxidation to SO42- greatly exceeded that of DOM photomineralization, resulting in a 50% loss of total DOS and 78% loss of DOSRed over 192 h of irradiance. Sulfonates (DOSSO3) and other minor oxidized DOS functionalities were not susceptible to photochemical oxidation. The observed susceptibility of DOSRed to photodesulfurization, which has implications on carbon, sulfur, and mercury cycling, should be comprehensively evaluated across diverse aquatic environments of differing DOM composition.

Published

2023

46. Defining Key Terms Related to Digital Learning: Survey of Higher Education Faculty & Administrators. Summary Report

Author

WCET (WICHE Cooperative for Educational Technologies), Bay View Analytics, Online Learning Consortium (OLC), University Professional and Continuing Education Association (UPCEA), Johnson, Nicole, Seaman, Jeff, and Poulin, Russ

Abstract

For years, there has been a sense of confusion and contention about the meanings of key terms such as online learning and hybrid learning. Additionally, there has been a lack of consensus on how to name different variations of online and hybrid learning (e.g., hyflex learning, synchronous online and hybrid elements, and asynchronous online and hybrid elements). To address the ongoing debate about how terms related to online and hybrid learning should be defined, a survey was conducted asking participants to indicate the extent to which they agreed with the following terms and their definitions: (1) Online learning: All instruction and interaction is fully online (synchronous or asynchronous); (2) Hybrid learning: A blend of online and in-person instruction (online instruction is synchronous or asynchronous); (3) Hyflex learning: Students can move between online and in-person instruction as they see fit (also referred to as multi-access or co-modal learning); (4) In-person learning: All instruction takes place in an in-person setting. (5) Synchronous learning: Instruction takes place in real-time and requires student presence (in-person or virtual) at a set time; and (6) Asynchronous learning: Instruction is available for students to access at a time that works best for them. The purpose of this report is to provide a brief overview of the findings from this study. [Additional partners of the report include: Canadian Digital Learning Research Association (CDLRA) and Quality Matters (QM).]

Published

2022

47. The Ups and Downs of Early Dark Energy solutions to the Hubble tension: a review of models, hints and constraints circa 2023

Author

Poulin, Vivian, Smith, Tristan L., and Karwal, Tanvi

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, High Energy Physics - Phenomenology, High Energy Physics - Theory

Abstract

We review the current status of Early Dark Energy (EDE) models proposed to resolve the "Hubble tension", the discrepancy between "direct" measurements of the current expansion rate of the Universe and "indirect measurements" for which the values inferred rely on the $\Lambda$CDM cosmological model calibrated on early-universe data. EDE refers to a new form of dark energy active at early times (typically a scalar-field), that quickly dilutes away at a redshift close to matter-radiation equality. The role of EDE is to decrease the sound horizon by briefly contributing to the Hubble rate in the pre-recombination era. We summarize the results of several analyses of EDE models suggested thus far in light of recent cosmological data, including constraints from the canonical {\it Planck} data, baryonic acoustic oscillations and Type Ia supernovae, and the more recent hints driven by cosmic microwave background observations using the Atacama Cosmology Telescope. We also discuss potential challenges to EDE models, from theoretical ones (a second "cosmic coincidence" problem in particular) to observational ones, related to the amplitude of clustering on scales of $8h$/Mpc as measured by weak-lensing observables (the so-called $S_8$ tension) and the galaxy power spectrum from BOSS analyzed through the effective field theory of large-scale structure. We end by reviewing recent attempts at addressing these shortcomings of the EDE proposal. While current data remain inconclusive on the existence of an EDE phase, we stress that given the signatures of EDE models imprinted in the CMB and matter power spectra, next-generation experiments can firmly establish whether EDE is the mechanism responsible for the Hubble tension and distinguish between the various models suggested in the literature., Comment: 48 + 3 pages, 30 + 3 figures. Accepted for publication as an invited review to Physics of the Dark Universe. Comments welcome! v2: minor updates, correcting typos and adding relevant citations; v3: match published version. Many (small) improvements to the text, including a new section about the consequences of EDE for inflation

Published

2023

48. What it takes to solve the Hubble tension through modifications of cosmological recombination

Author

Lee, Nanoom, Ali-Haïmoud, Yacine, Schöneberg, Nils, and Poulin, Vivian

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We construct data-driven solutions to the Hubble tension which are perturbative modifications to the fiducial $\Lambda$CDM cosmology, using the Fisher bias formalism. Taking as proof of principle the case of a time-varying electron mass and fine structure constant, and focusing first on Planck CMB data, we demonstrate that a modified recombination can solve the Hubble tension and lower $S_8$ to match weak lensing measurements. Once baryonic acoustic oscillation and uncalibrated supernovae data are included, however, it is not possible to fully solve the tension with perturbative modifications to recombination., Comment: 5+13 pages, 2+12 figures, version accepted for publication in PRL

Published

2022

49. Is expansion blind to the spatial curvature?

Author

Vigneron, Quentin and Poulin, Vivian

Subjects

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

Abstract

In [arXiv:2204.13980], we proposed and motivated a modification of the Einstein equation as a function of the topology of the Universe in the form of a bi-connection theory. The new equation features an additional "topological term" related to a second non-dynamical reference connection and chosen as a function of the spacetime topology. In the present paper, we analyse the consequences for cosmology of this modification. First, we show that expansion becomes blind to the spatial curvature in this new theory, i.e. the expansion laws do not feature the spatial curvature parameter anymore (i.e. $\Omega_{\not= K} = 1, \ \forall \, \Omega_K$), while this curvature is still present in the evaluation of distances. Second, we derive the first order perturbations of this homogeneous solution. Two additional gauge invariant variables coming from the reference connection are present compared with general relativity: a scalar and a vector mode, both sourced by the shear of the cosmic fluid. Finally, we confront this model with observations. The differences with the $\Lambda$CDM model are negligible, in particular, the Hubble and curvature tensions are still present. Nevertheless, since the main difference between the two models is the influence of the background spatial curvature on the dynamics, an increased precision on the measure of that parameter might allow us to observationally distinguish them., Comment: 22+4 pages, 2 figures, 2 tables. Accepted for publication in Physical Review D

Published

2022

50. Proof-of-concept of real-time electromagnetic guidance for gynecologic interstitial catheters in high dose rate brachytherapy

Author

Audrey Cantin, Marie-Claude Lavallée, Eric Poulin, Gilion Hautvast, William Foster, and Luc Beaulieu

Subjects

Brachytherapy, High Dose Rate, Cervical cancer, Electromagnetic tracking, Image guidance, Medical physics. Medical radiology. Nuclear medicine, R895-920, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Background and Purpose: The addition of interstitial needles to intracavitary gynecologic (GYN) high dose rate (HDR) brachytherapy has been shown to improve target coverage and organs-at-risk (OAR) sparing. However, no commercial solution allows real-time guidance of interstitial catheter placement. This phantom study aimed to evaluate the feasibility of an electromagnetic (EM) tracking system guidance workflow for GYN HDR brachytherapy treatment in a magnetic resonance imaging (MRI) and real-time transrectal ultrasound (TRUS) fusion scenario. Materials and Methods: A clinical investigational system combining a treatment planning system and the EM tracking technology was used. The 3D T2 weighted magnetic resonance (MR) image set of a patient treated with intracavitary and interstitial HDR brachytherapy was retrospectively chosen. The MR image set was used to delineate the target and the OARs. A preplan was generated to determine needles positions in advance. The implant was reproduced in a water phantom. A 3D TRUS scan was acquired, and a rigid registration between the MR and the TRUS images was performed. Results: The accuracy of the EM tracking system was

Published

2024