Your search keyword '"Schaffner, P."' showing total 2,610 results

1. Fundamental Oscillations of Massive Boson Stars -- II

Author

Shirke, Swarnim, Pradhan, Bikram Keshari, Chatterjee, Debarati, Sagunski, Laura, and Schaffner-Bielich, Jürgen

Subjects

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

Abstract

Boson Stars (BSs) are macroscopic self-gravitating configurations made of complex scalar fields. These exotic compact objects (ECO) would manifest as dark Boson stars and can contribute to a certain fraction of the dark matter (DM) in the universe. In this work, we study the fundamental non-radial oscillations ($f$-modes) of massive BSs and the associated gravitational wave (GW) emission. We consider massive scalar BSs having the potential of the form $V(\phi) = \frac{1}{2}m^2|\phi|^2 + \frac{1}{4}\lambda |\phi|^4$, restricting to the strong-coupling regime ($\lambda \gg m^2/M_{Pl}^2$) where solutions resembling fermionic stars are known to exist. We first review the available parameter space for scalar DM that can form massive BSs and enlist various constraints. We fit and provide simple analytical relations connecting various macroscopic observables for BSs, which can be directly incorporated into future studies of massive BSs throughout the strong coupling regime without requiring any numerical computation. We then solve for the non-radial $l=2$ fundamental quasinormal modes ($f$-modes) for massive BSs. Scaling relations for $f$-mode equations have been reported in another work. Using these, we perform a complete study of these oscillations spanning the entire available parameter space of massive BSs and provide analytical fits for the $f$-mode characteristics. We further study the universal relations for BSs and reveal the parameter space that is sensitive to the current and future planned GW detectors. We find that different parts of the parameters space can, in principle, be probed by the LISA, LIGO, and NEMO detectors. Finally, we briefly discuss the detectability of $f$-modes from BSs that have not been explored before., Comment: 37 pages, 15 figures

Published

2025

2. Fundamental Oscillations of Massive Boson Stars and Distinguishability

Author

Shirke, Swarnim, Pradhan, Bikram Keshari, Chatterjee, Debarati, Sagunski, Laura, and Schaffner-Bielich, Jürgen

Subjects

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

Abstract

Massive Boson Stars are self-gravitating configurations of self-interacting scalar fields. The equation of state of massive boson stars and their masses, radii, modeled by a self-interacting scalar field with potential of the form $V(\phi) = \frac{1}{2}m^2|\phi|^2 + \frac{1}{4}\lambda |\phi|^4$ are known to follow scaling relations. The non-radial fundamental oscillations of such massive BSs have been studied only for a few select model parameters so far. In this work, we demonstrate for the first time that the $f$-mode characteristics also follow a scaling in the strong interaction limit ($\lambda \gg m^2/M_{Pl}^2$). This opens up the outstanding prospect of studying the $f$-modes of massive BSs throughout the scalar DM parameter space. We study the implications of this finding by carrying out a detailed study of massive BS $f$-modes in a separate work. Here, having introduced this scaling, we use it to compare boson star oscillations with the neutron star and black hole quasinormal modes, thus providing a smoking gun for the distinguishability of BSs using gravitational waves., Comment: 10 pages, 3 figures

Published

2025

3. Accelerating the Fusion Workforce

Author

Paz-Soldan, Carlos, Belonohy, Eva, Carter, Troy, Cote, Laleh E., Kostadinova, Evdokiya, Lowe, Calvin, Sharma, Subash L., de Clark, Sybil, Deshpande, Jaydeep, Kelly, Kate, Kruse, Veronika, Makani, Bobbi, Schaffner, David A., and Thome, Kathreen E.

Subjects

Physics - Physics and Society, Physics - Physics Education, Physics - Plasma Physics

Abstract

The fusion energy research and development landscape has seen significant advances in recent years, with important scientific and technological breakthroughs and a rapid rise of investment in the private sector. The workforce needs of the nascent fusion industry are growing at a rate that academic workforce development programs are not currently able to match. This paper presents the findings of the Workforce Accelerator for Fusion Energy Development Conference held in Hampton, Virginia, United States of America (USA), on May 29-30 2024, which was funded by the US National Science Foundation (NSF). A major goal of the conference was to focus on bringing public and private stakeholders together to identify opportunities for partnership in fusion research and education with the goal of meeting the needs for a talented and diverse workforce. Representatives from industry, academia, and national laboratories participated in the conference through the preparation of white papers, presentations, and group discussions, and the production of recommendations to address the challenges facing the US fusion workforce.

Published

2025

4. An Experimental Study Of Netflix Use and the Effects of Autoplay on Watching Behaviors

Author

Schaffner, Brennan, Ulloa, Yaretzi, Sahni, Riya, Li, Jiatong, Cohen, Ava Kim, Messier, Natasha, Gao, Lan, and Chetty, Marshini

Subjects

Computer Science - Human-Computer Interaction

Abstract

Prior work on dark patterns, or manipulative online interfaces, suggests they have potentially detrimental effects on user autonomy. Dark pattern features, like those designed for attention capture, can potentially extend platform sessions beyond that users would have otherwise intended. Existing research, however, has not formally measured the quantitative effects of these features on user engagement in subscription video-on-demand platforms (SVODs). In this work, we conducted an experimental study with 76 Netflix users in the US to analyze the impact of a specific attention capture feature, autoplay, on key viewing metrics. We found that disabling autoplay on Netflix significantly reduced key content consumption aggregates, including average daily watching and average session length, partly filling the evidentiary gap regarding the empirical effects of dark pattern interfaces. We paired the experimental analysis with users' perceptions of autoplay and their viewing behaviors, finding that participants were split on whether the effects of autoplay outweigh its benefits, albeit without knowledge of the study findings. Our findings strengthen the broader argument that manipulative interface designs can and do affect users in potentially damaging ways, highlighting the continued need for considering user well-being and varied preferences in interface design., Comment: CSCW 2025 Preprint

Published

2024

5. Masquerading hybrid stars with dark matter

Author

Biesdorf, Carline, Schaffner-Bielich, Jürgen, and Tolos, Laura

Subjects

High Energy Physics - Phenomenology, Astrophysics - High Energy Astrophysical Phenomena, Nuclear Theory

Abstract

We investigate the influence of dark matter on hybrid stars. Using a two-fluid approach, where normal and dark matter components interact only gravitationally, we explore how dark matter can trigger the appearance of quark matter in neutron stars for unprecedented low masses. Our findings reveal that dark matter increases the central pressure of neutron stars, potentially leading to the formation of hybrid stars with quark cores even at very low compact star masses. The critical mass for the appearance of quark matter decreases with increasing dark matter content. We introduce the concept of "masquerading hybrid stars", where dark matter admixed stars exhibit similar mass-radius relations to purely hadronic stars, making it challenging to distinguish between them based solely on these parameters. Additionally, we identify a unique class of objects termed "dark oysters", characterized by a large dark matter halo and a small normal matter core, highlighting the diverse structural possibilities for compact stars influenced by dark matter., Comment: 16 pages, 7 figures

Published

2024

6. Thermodynamic Consistent Description of Compact Stars of Two Interacting Fluids: The Case of Neutron Stars with Higgs Portal Dark Matter

Author

Hajkarim, Fazlollah, Schaffner-Bielich, Jürgen, and Tolos, Laura

Subjects

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

Abstract

We consider a thermodynamically consistent approach for the computation of the masses, radii, and tidal deformabilities of compact stars consisting of two interacting fluids with separately conserved quantum numbers. We apply this interacting fluid approach to the case of compact stars of neutron star matter with the Higgs portal fermionic dark matter model for the first time in a thermodynamically consistent manner. The patterns for the mass-radius curves and the tidal deformability depend on the dark matter particle mass and are different from former studies. Compared to ordinary neutron star properties, we obtain smaller masses and radii for dark matter particle masses similar to the nucleon mass and, hence, smaller tidal deformabilities as a result of the softening of the equation of state due to the presence of dark matter. For dark matter particle masses below the nucleon mass and sizable chemical potentials with respect to the dark matter particle mass, there will be a dark halo instead of dark core. Our investigation provides the basis for studying mergers of compact stars where the two fluids of neutron star matter and dark matter are coupled kinetically to each other and are described by one combined energy-momentum tensor of the two interacting fluids but are chemically different with two separately conserved number currents., Comment: 25 pages, 6 figures

Published

2024

7. Determining proto-neutron stars' minimal mass with chirally constrained nuclear equations of state

Author

Kunkel, Selina, Wystub, Stephan, and Schaffner-Bielich, Jürgen

Subjects

Nuclear Theory, Astrophysics - High Energy Astrophysical Phenomena

Abstract

The minimal masses and radii of proto-neutron stars during different stages of their evolution are investigated. In our work we focus on two stages, directly after the supernova shock wave moves outwards, where neutrinos are still captured in the core and the lepton per baryon ratio is fixed to $Y_L = 0.4$, and a few seconds afterwards, when all neutrinos have left the star. All nuclear equations of state used for this purpose fulfill the binding energy constraints from chiral effective field theory for neutron matter at zero temperature. We find for the neutrino-trapped case higher minimal masses than for the case when neutrinos have left the proto-neutron star. Thermal effects, here in the form of a given constant entropy per baryon $s$, have a smaller effect on increasing the minimal mass. The minimal proto-neutron star mass for the first evolutionary stage with $Y_L = 0.4$ and $s = 1$ amounts to $M_{min} \sim 0.62M_{\odot}$ and for the stage without neutrinos and $s = 2$ to $M_{min} \sim 0.22M_{\odot}$ rather independent on the nuclear equation of state used. We also study the case related to an accretion induced collapse of a white dwarf where the initial lepton fraction is $Y_L = 0.5$ and observe large discrepancies in the results of the different tables of nuclear equations of state used. Our finding points towards a thermodynamical inconsistent treatment of the nuclear liquid-gas phase transition for nuclear equations of state in tabular form demanding a fully generalized three-dimensional Gibbs construction for a proper treatment. Finally, we demonstrate that there is a universal relation for the increase of the proto-neutron star minimal mass with the lepton fraction for all nuclear equations of state used., Comment: 28 pages, 8 figures, 2 tables, comments are welcome

Published

2024

8. Astrophysical constraints on color-superconducting phases in compact stars within the RG-consistent NJL model

Author

Gholami, Hosein, Rather, Ishfaq Ahmad, Hofmann, Marco, Buballa, Michael, and Schaffner-Bielich, Jürgen

Subjects

High Energy Physics - Phenomenology, Astrophysics - Solar and Stellar Astrophysics, Nuclear Theory

Abstract

We determine parameters of the renormalization group-consistent three-flavor color-superconducting Nambu-Jona-Lasinio (NJL) model that are suited to investigate possible compact-star configurations. Our goal is to provide quark-matter equations of state (EoS) that can be used for hadron-quark hybrid-star constructions. To that end, we mainly focus on the parameters of the quark-matter model. By varying the vector and diquark coupling constants, we analyze their impact on the EoS, the speed of sound, the maximum diquark gap, and the mass-radius relation. In almost all configurations, a stable color-flavor-locked (CFL) phase appears in the core of the maximum-mass configurations, typically spanning several kilometers in radius. In other cases, the star's two-flavor color-superconducting (2SC) branch of the EoS becomes unstable before reaching the CFL transition density. At neutron-star densities, the speed of sound squared reaches up to $c_s^2 \sim 0.6$ and the CFL gap up to $\Delta\sim250\,$MeV. We argue that adding a hadronic EoS at lower densities by performing a Maxwell construction does not increase the maximum mass substantially. Thus we use the $2.0 M_{\odot}$ constraint to constrain the NJL model parameters that are suited for the construction of hybrid-star EoS. We construct three examples of the hybrid-star model, demonstrating that there is room for different color-superconducting compositions. The hybrid EoSs obtained in this way can have no 2SC matter or different ratios of 2SC and CFL quark matter in the core. We show that early hadron-quark transitions are possible that can modify the tidal deformability at 1.4 $M_\odot$. We find that these EoSs are consistent with the imposed constraints from astrophysics and perturbative QCD. They allow for different hybrid-star scenarios with a hadronic EoS that is soft at low to intermediate densities ($\sim 1-3\, n_{\text{sat}}$)., Comment: 21 pages, 12 figures, 2 tables, comments are welcomed

Published

2024

9. Isospin breaking in the $^{71}$Kr and $^{71}$Br mirror system

Author

Algora, A., Vitéz-Sveiczer, A., Poves, A., Kiss, G. G., Rubio, B., de Angelis, G., Recchia, F., Nishimura, S., Rodriguez, T., Sarriguren, P., Agramunt, J., Guadilla, V., Montaner-Pizá, A., Morales, A. I., Orrigo, S. E. A., Napoli, D., Lenzi, S. M., Boso, A., Phong, V. H., Wu, J., Söderström, P. -A., Sumikama, T., Suzuki, H., Takeda, H., Ahn, D. S., Baba, H., Doornenbal, P., Fukuda, N., Inabe, N., Isobe, T., Kubo, T., Kubono, S., Sakurai, H., Shimizu, Y., Chen, S., Blank, B., Ascher, P., Gerbaux, M., Goigoux, T., Giovinazzo, J., Grévy, S., Nieto, T. Kurtukián, Magron, C., Gelletly, W., Dombrádi, Zs., Fujita, Y., Tanaka, M., Aguilera, P., Molina, F., Eberth, J., Diel, F., Lubos, D., Borcea, C., Ganioglu, E., Nishimura, D., Oikawa, H., Takei, Y., Yagi, S., Korten, W., de France, G., Davies, P., Liu, J., Lee, J., Lokotko, T., Kojouharov, I., Kurz, N., Schaffner, H., and Kruppa, A.

Subjects

Nuclear Experiment, Nuclear Theory

Abstract

Isospin symmetry is a fundamental concept in nuclear physics. Even though isospin symmetry is partially broken, it holds approximately for most nuclear systems, which makes exceptions very interesting from the nuclear structure perspective. In this framework, it is expected that the spins and parities of the ground states of mirror nuclei should be the same, in particular for the simplest systems where a proton is exchanged with a neutron or vice versa. In this work, we present evidence that this assumption is broken in the mirror pair $^{71}$Br and $^{71}$Kr system. Our conclusions are based on a high-statistics $\beta$ decay study of $^{71}$Kr and on state-of-the-art shell model calculations. In our work, we also found evidence of a new state in $^{70}$Se, populated in the $\beta$-delayed proton emission process which can be interpreted as the long sought coexisting 0$^+$ state., Comment: 8 pages with references, 3 figures. Supplemental material 4 pages (1 table, 3 figures)

Published

2024

10. Generating ultra-compact neutron stars with bosonic dark matter

Author

Pitz, Sarah Louisa and Schaffner-Bielich, Jürgen

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Nuclear Theory

Abstract

In this work we investigate the properties of neutron stars admixed with selfinteracting scalar bosonic dark matter. The dark matter interaction is described by a generalized $\phi^n$ power-law potential. We perform a stability analysis of these two-fluid objects by studying the onset of the unstable radial modes. We find ultra-compact neutron star-dark matter configurations where the neutron star matter is confined to a core radius of values below $7$ km which is unreachable for pure neutron stars. The total gravitational maximum mass of these ultra-compact configurations can have values of $3.4 \, M_\odot$. With our general ansatz of the power-law potential we show that the compactness of these solutions can be extreme, i.e. the compactness is $C = 1/3$ or even larger, making them compact enough to have a light-ring mimicking black holes. These ultra-compact objects are stable and possess a dark matter halo while having a hadronic matter core. With the addition of dark matter to neutron stars recent unusual mass-radius measurements of compact stars can be explained. We conclude that apparently contradictory measurements of neutron star masses and radii could be not only an indication of the presence of dark matter around a the hadronic matter core which is stabilized by the gravitational potential of dark matter but could also serve to disentangle the selfinteraction strength of dark matter. Our work points to a stiff equation of state for the dark matter fluid, rather than a soft one., Comment: 12 pages, 5 figures, accepted for publication in PRD

Published

2024

11. Constraining twin stars with cold neutron star cooling data

Author

Mendes, Melissa, Christian, Jan-Erik, Fattoyev, Farrukh J., and Schaffner-Bielich, Jürgen

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Nuclear Theory

Abstract

We investigate the influence of a phase transition from hadronic matter to a deconfined quark phase inside a neutron star on its cooling behaviour including the appearance of twin star solutions in the mass-radius diagram. We find that while the inferred neutrino luminosity of cold transiently-accreting star in MXB $1659\text{-}29$ is reproduced in all of the constructed twin star models, the luminosity of a colder source, the neutron star in SAX J$1808.4\text{-}3658$, cannot be described by equations of state with quark-hadron transition densities below $1.7$ saturation density, suggesting that twin stars with such low density transitions to the quark phase are not realized in nature. We also discuss how constraints to the quark-hadron phase transition density are strongly dependent on the cooling effectiveness of neutrino reactions in the quark phase., Comment: 11 pages, 6 figures. Accepted for publication in PRD

Published

2024

12. PECCARY: A novel approach for characterizing orbital complexity, stochasticity, and regularity

Author

Hyman, Sóley Ó., Daniel, Kathryne J., and Schaffner, David A.

Subjects

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

Abstract

Permutation Entropy and statistiCal Complexity Analysis for astRophysics (PECCARY) is a computationally inexpensive, statistical method by which any time-series can be characterized as predominately regular, complex, or stochastic. Elements of the PECCARY method have been used in a variety of physical, biological, economic, and mathematical scenarios, but have not yet gained traction in the astrophysical community. This study introduces the PECCARY technique with the specific aims to motivate its use in and optimize it for the analysis of astrophysical orbital systems. PECCARY works by decomposing a time-dependent measure, such as the x-coordinate or orbital angular momentum time-series, into ordinal patterns. Due to its unique approach and statistical nature, PECCARY is well-suited for detecting preferred and forbidden patterns (a signature of chaos), even when the chaotic behavior is short-lived or when working with a relatively short duration time-series or small sets of time-series data. A variety of examples are used to demonstrate the capabilities of PECCARY. These include mathematical examples (sine waves, varieties of noise, sums of sine waves, well-known chaotic functions), a double pendulum system, and astrophysical tracer particle simulations with potentials of varying intricacies. Since the adopted timescale used to diagnose a given time-series can affect the outcome, a method is presented to identify an ideal sampling scheme, constrained by the overall duration and the natural timescale of the system. The accompanying PECCARY Python package and its usage are discussed., Comment: 20 pages, 14 figures, 2 tables

Published

2024

13. Burden of Acute Respiratory Infections Caused by Influenza Virus, Respiratory Syncytial Virus, and SARS-CoV-2 with Consideration of Older Adults: A Narrative Review

Author

Hanage, William P. and Schaffner, William

Published

2025

14. 'Community Guidelines Make this the Best Party on the Internet': An In-Depth Study of Online Platforms' Content Moderation Policies

Author

Schaffner, Brennan, Bhagoji, Arjun Nitin, Cheng, Siyuan, Mei, Jacqueline, Shen, Jay L., Wang, Grace, Chetty, Marshini, Feamster, Nick, Lakier, Genevieve, and Tan, Chenhao

Subjects

Computer Science - Human-Computer Interaction, Computer Science - Social and Information Networks

Abstract

Moderating user-generated content on online platforms is crucial for balancing user safety and freedom of speech. Particularly in the United States, platforms are not subject to legal constraints prescribing permissible content. Each platform has thus developed bespoke content moderation policies, but there is little work towards a comparative understanding of these policies across platforms and topics. This paper presents the first systematic study of these policies from the 43 largest online platforms hosting user-generated content, focusing on policies around copyright infringement, harmful speech, and misleading content. We build a custom web-scraper to obtain policy text and develop a unified annotation scheme to analyze the text for the presence of critical components. We find significant structural and compositional variation in policies across topics and platforms, with some variation attributable to disparate legal groundings. We lay the groundwork for future studies of ever-evolving content moderation policies and their impact on users.

Published

2024

15. Comprehensive study of compact stars with dark matter

Author

Barbat, Mikel F., Schaffner-Bielich, Jürgen, and Tolos, Laura

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Nuclear Theory

Abstract

We present a comprehensive study of compact stars admixed with non-self annihilating self-interacting fermionic dark matter, delineating the dependence on the nuclear equation of state by considering the two limiting parametrized equations of state for neutron star matter obtained by smoothly matching the low-density chiral effective theory and the high-density perturbative QCD. These two parametrizations are the limiting cases of a wide variety of smooth equations of state, i.e. the softest and stiffest possible one without a phase transition, that generate masses and radii compatible with 2M$_\odot$ observations and the tidal constraint from GW170817. With an exhaustive analysis of the possible stable mass-radius configurations, we determine the quantity of dark matter contained in stars with masses and radii compatible with the aforementioned astrophysical constraints. We find that for dark particle masses of a few tenths of GeV, the dark core collapses and no stable solutions are found for the two limiting ordinary matter equations of state. For lower masses, the dark matter fraction is limited to 10%, being at most 1% for masses ranging from 0.1 to 10 GeV for the limiting soft nuclear equation of state. For the limiting stiff nuclear equation of state, the dark matter fraction can reach values of more than 10%, but the dark particle mass is being constrained to 0.3 GeV and 10 GeV for the weak self-interacting case and has to be at least 5 GeV for the strong self-interacting one. For dark particle masses of less than 0.1 GeV, stable neutron star configurations should have less than 1% of self-interacting dark matter to be compatible with the constraint of the tidal deformability from GW170817 for the two limiting ordinary matter equations of state studied., Comment: 13 pages, 10 figures, published revised version

Published

2024

16. Effects of Dark Matter on $f$-mode oscillations of Neutron Stars

Author

Shirke, Swarnim, Pradhan, Bikram Keshari, Chatterjee, Debarati, Sagunski, Laura, and Schaffner-Bielich, Jürgen

Subjects

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

Abstract

The effect of dark matter (DM) on $f$-mode oscillations in DM admixed neutron stars (NSs) is investigated in a comprehensive analysis with particular attention to the role of the nuclear equation of state. Hadronic matter is modeled by the relativistic mean field model and the DM model is based on the neutron decay anomaly. The non-radial $f$-mode oscillations for such DM admixed NS are studied in a full general relativistic framework. We investigate the impact of DM, DM self-interaction, and DM fraction on the $f$-mode characteristics. We derive relations encoding the effect of DM on $f$-mode parameters. We then perform a systematic study by varying all the model parameters within their known uncertainty range and obtain a universal relation for the DM fraction based on the total mass of the star and DM self-interaction strength. We also perform a correlation study among model parameters, NS observables, in particular, $f$-mode parameters. Finally, we check the $f$-mode universal relations (URs) for the case of DM admixed NSs and demonstrate the existence of a degeneracy between purely hadronic NSs and DM admixed NSs., Comment: 27 pages, 22 figures, 5 tables. Published in PRD. Accepted version of the manuscript

Published

2024

17. Designing and Testing a Mobile Application for Collecting WhatsApp Chat Data While Preserving Privacy

Author

Schaffner, Brennan, Brohn, Archie, Chee, Jason, Feng, K. J., and Chetty, Marshini

Subjects

Computer Science - Human-Computer Interaction

Abstract

It is common practice for researchers to join public WhatsApp chats and scrape their contents for analysis. However, research shows collecting data this way contradicts user expectations and preferences, even if the data is effectively public. To overcome these issues, we outline design considerations for collecting WhatsApp chat data with improved user privacy by heightening user control and oversight of data collection and taking care to minimize the data researchers collect and process off a user's device. We refer to these design principles as User-Centered Data Sharing (UCDS). To evaluate our UCDS principles, we implemented a mobile application representing one possible instance of these improved data collection techniques and evaluated the viability of using the app to collect WhatsApp chat data. Second, we surveyed WhatsApp users to gather user perceptions on common existing WhatsApp data collection methods as well as UCDS methods. Our results show that we were able to glean similar informative insights into WhatsApp chats using UCDS principles in our prototype app to common, less privacy-preserving methods. Our survey showed that methods following the UCDS principles are preferred by users because they offered users more control over the data collection process. Future user studies could further expand upon UCDS principles to overcome complications of researcher-to-group communication in research on WhatsApp chats and evaluate these principles in other data sharing contexts.

Published

2024

18. Which first order phase transitions to quark matter are possible in neutron stars?

Author

Christian, Jan-Erik, Schaffner-Bielich, Jürgen, and Rosswog, Stephan

Subjects

Nuclear Theory, Astrophysics - High Energy Astrophysical Phenomena

Abstract

We examine which first order phase transitions are consistent with today's astrophysical constraints. In particular, we explore how a well-constrained mass-radius data point would restrict the admissible parameter space and to this end, we employ the most likely candidates of the recent NICER limits of PSR J0030+0451. To systematically vary the stiffness of the equation of state, we employ a parameterizable relativistic mean field equation of state, which is in compliance with results from chiral effective field theory. We model phase transitions via Maxwell constructions and parameterize them by means of the transitional pressure $p_{\rm trans}$ and the jump in energy density $\Delta\epsilon$. This provides us with a generic setup that allows for rather general conclusions to be drawn. We outline some regions in the $p_{\rm trans}$-$\Delta\epsilon$ parameter space that may allow for a phase transition identification in the near future. We also find that a strongly constrained data point, at either exceptionally large or small radii, would reduce the parameter space to such an extent that mass and radius become insufficient indicators of a phase transition., Comment: 14 pages, 9 figures

Published

2023

19. Meningococcal Disease in Persons With HIV Reported Through Active Surveillance in the United States, 2009-2019.

Author

Rudmann, Keegan, Cooper, Gabrielle, Marjuki, Henju, Reingold, Arthur, Barnes, Meghan, Petit, Susan, Moore, Ashley, Harrison, Lee, Lynfield, Ruth, Khanlian, Sarah, Anderson, Bridget, Martin, Tasha, Schaffner, William, McNamara, Lucy, and Rubis, Amy

Subjects

Neisseria meningitidis, invasive meningococcal disease, people with HIV

Abstract

Persons with HIV (PWH) are at increased risk for bacterial infections, and previous publications document an increased risk for invasive meningococcal disease (IMD) in particular. This analysis provides evidence that PWH face a 6-fold increase in risk for IMD based on Active Bacterial Core surveillance data collected during 2009-2019.

Published

2024

20. Effect of niobium addition over Ni/MCM-41 catalysts for dry reforming of biogas

Author

Zempulski, Denise Aparecida, de Alencar, Áquila Oliveira, de Andrade Schaffner, Rodolfo, do Nascimento, Cleuciane Tillvitz, Borba, Carlos Eduardo, and Alves, Helton José

Published

2024

21. Same-sex sexual behavior in brown-headed spider monkeys (Ateles fusciceps fusciceps) during grappling between two subadult males

Author

Gottstein, Malika, Morelos-Juárez, Citlalli, Schaffner, Colleen M., and Aureli, Filippo

Published

2024

22. Critical Race Theory and Asymmetric Mobilization

Author

Deshpande, Pia, Blatte, Scott, Margalit, Yonatan, Lezama, Carolina Olea, Schaffner, Brian F., Shivakumar, Aadhya, and Wingens, David

Published

2024

23. Early postoperative beta-blockers are associated with improved cardiac output after late complete repair of tetralogy of Fallot: a retrospective cohort study

Author

Maitre, Guillaume, Schaffner, Damien, Lava, Sebastiano A. G., Perez, Marie-Hélène, and Di Bernardo, Stefano

Published

2024

24. SU(3) parity doubling in cold neutron star matter

Author

Fraga, Eduardo S., da Mata, Rodrigo, and Schaffner-Bielich, Jürgen

Subjects

High Energy Physics - Phenomenology, Astrophysics - High Energy Astrophysical Phenomena, Nuclear Theory

Abstract

We present a phenomenological model to investigate the chiral phase transition characterized by parity doubling in dense, beta equilibrated, cold matter. Our model incorporates effective interactions constrained by SU(3) relations and considers baryonic degrees of freedom. By constraining the model with astrophysical data and nuclear matter properties, we find a first-order phase transition within realistic values of the slope parameter L. The inclusion of the baryon octet and negative parity partners, along with a chiral-invariant mass $m_{0}$, allows for a non-massless chiral symmetric phase. Through exploration of parameter space, we identify parameter sets satisfying mass and radius constraints without requiring a partonic phase. The appearance of the parity partner of the nucleon, the N(1535) resonance, suppresses strangeness, pushing hyperonization to higher densities. We observe a mild first-order phase transition to the chirally restored phase, governed by $m_{0}$. Our calculations of surface tension highlight its strong dependence on $m_{0}$. The existence of mixed phases is ruled out since they become energetically too costly. We compare stars with metastable and stable cores using both branches of the equation of state. Despite limited lifespans due to low surface tension values, phase conversion and star contraction could impact neutron stars with masses around 1.3 solar masses or more. We discuss some applications of this model in its non-zero temperatures generalization and scenarios beyond beta equilibrium that can provide insights into core-collapse supernovae, proto-neutron star evolution, and neutron star mergers. Core-collapse supernovae dynamics, influenced by chiral symmetry restoration and exotic hadronic states, affect explosion mechanisms and nucleosynthesis., Comment: 22 pages, 10 figures

Published

2023

25. Generating ultra compact boson stars with modified scalar potentials

Author

Pitz, Sarah Louisa and Schaffner-Bielich, Jürgen

Subjects

Astrophysics - High Energy Astrophysical Phenomena, General Relativity and Quantum Cosmology

Abstract

The properties of selfinteracting boson stars with different scalar potentials going beyond the commonly used $\phi^4$ ansatz are studied. The scalar potential is extended to different values of the exponent $n$ of the form $V \propto \phi^n$. Two stability mechanism for boson stars are introduced, the first being a mass term and the second one a vacuum term. We present analytic scale-invariant expressions for these two classes of equations of state. The resulting properties of the boson star configurations differ considerably from previous calculations. We find three different categories of mass-radius relation: the first category resembles the mass-radius curve of selfbound stars, the second one those of neutron stars and the third one is the well known constant radius case from the standard $\phi^4$ potential. We demonstrate that the maximal compactness can reach extremely high values going to the limit of causality $C_\text{max} = 0.354$ asymptotically for $n\to\infty$. The maximal compactnesses exceed previously calculated values of $C_\text{max}=0.16$ for the standard $\phi^4$-theory and $C_\text{max}=0.21$ for vector-like interactions and is in line with previous results for solitonic boson stars. Hence, boson stars even described by a simple modified scalar potential in the form of $V \propto \phi^n$ can be ultra compact black hole mimickers where the photon ring is located outside the radius of the star., Comment: 18 pages, 5 figures, data files

Published

2023

26. Door-to-door overdose harm reduction: an Illinois case study

Author

Mason, Maryann, Johnson, Bruce, Schaffner, Christorpher, Johnston, Sean, Alexander, Ursula, Ajala, Oyindamola, Andrews, Nia, and Welch, Sarah B.

Published

2024

27. A reproducible extended ex-vivo normothermic machine liver perfusion protocol utilising improved nutrition and targeted vascular flows

Author

Clarke, George, Mao, Jingwen, Hann, Angus, Fan, Yiyu, Gupta, Amita, Nutu, Anisa, Buckel Schaffner, Erwin, Kayani, Kayani, Murphy, Nicholas, Bangash, Mansoor N., Casey, Anna L., Wootton, Isla, Lawson, Alexander J., Dasari, Bobby V. M., Perera, M. Thamara P. R., Mergental, Hynek, and Afford, Simon C.

Published

2024

28. The individual and ecological characteristics of parental COVID-19 vaccination decisions

Author

Hörnig, Lukas, Schaffner, Sandra, and Schmitz, Hendrik

Published

2024

29. Local environmental factors drive distributions of ecologically-contrasting mosquito species (Diptera: Culicidae)

Author

Wouters, Roel M., Beukema, Wouter, Schrama, Maarten, Biesmeijer, Koos, Braks, Marieta A. H., Helleman, Pepijn, Schaffner, Francis, van Slobbe, Joey, Stroo, Arjan, and van der Beek, Jordy G.

Published

2024

30. Two decades of molecular surveillance in Senegal reveal rapid changes in known drug resistance mutations over time

Author

Ndiaye, Yaye D., Wong, Wesley, Thwing, Julie, Schaffner, Stephen F., Brenneman, Katelyn Vendrely, Tine, Abdoulaye, Diallo, Mamadou A., Deme, Awa B., Sy, Mouhamad, Bei, Amy K., Thiaw, Alphonse B., Daniels, Rachel, Ndiaye, Tolla, Gaye, Amy, Ndiaye, Ibrahima M., Toure, Mariama, Gadiaga, Nogaye, Sene, Aita, Sow, Djiby, Garba, Mamane N., Yade, Mamadou S., Dieye, Baba, Diongue, Khadim, Zoumarou, Daba, Ndiaye, Aliou, Gomis, Jules F., Fall, Fatou B., Ndiop, Medoune, Diallo, Ibrahima, Sene, Doudou, Macinnis, Bronwyn, Seck, Mame C., Ndiaye, Mouhamadou, Ngom, Bassirou, Diedhiou, Younouss, Mbaye, Amadou M., Ndiaye, Lamine, Sy, Ngayo, Badiane, Aida S., Hartl, Daniel L., Wirth, Dyann F., Volkman, Sarah K., and Ndiaye, Daouda

Published

2024

31. Genetic variation and pesticide exposure influence blood DNA methylation signatures in females with early-stage Parkinson’s disease

Author

Schaffner, S. L., Casazza, W., Artaud, F., Konwar, C., Merrill, S. M., Domenighetti, C., Schulze-Hentrich, J. M., Lesage, S., Brice, A., Corvol, J. C., Mostafavi, S., Dennis, J. K., Elbaz, A., and Kobor, M. S.

Published

2024

32. Positive affect and heart rate variability: a dynamic analysis

Author

Beatton, Tony, Chan, Ho Fai, Dulleck, Uwe, Ristl, Andrea, Schaffner, Markus, and Torgler, Benno

Published

2024

33. Evaluating the performance of Plasmodium falciparum genetic metrics for inferring National Malaria Control Programme reported incidence in Senegal

Author

Wong, Wesley, Schaffner, Stephen F., Thwing, Julie, Seck, Mame Cheikh, Gomis, Jules, Diedhiou, Younouss, Sy, Ngayo, Ndiop, Medoune, Ba, Fatou, Diallo, Ibrahima, Sene, Doudou, Diallo, Mamadou Alpha, Ndiaye, Yaye Die, Sy, Mouhamad, Sene, Aita, Sow, Djiby, Dieye, Baba, Tine, Abdoulaye, Ribado, Jessica, Suresh, Joshua, Lee, Albert, Battle, Katherine E., Proctor, Joshua L., Bever, Caitlin A., MacInnis, Bronwyn, Ndiaye, Daouda, Hartl, Daniel L., Wirth, Dyann F., and Volkman, Sarah K.

Published

2024

34. Investigating the etiologies of non-malarial febrile illness in Senegal using metagenomic sequencing

Author

Levine, Zoë C., Sene, Aita, Mkandawire, Winnie, Deme, Awa B., Ndiaye, Tolla, Sy, Mouhamad, Gaye, Amy, Diedhiou, Younouss, Mbaye, Amadou M., Ndiaye, Ibrahima M., Gomis, Jules, Ndiop, Médoune, Sene, Doudou, Faye Paye, Marietou, MacInnis, Bronwyn L., Schaffner, Stephen F., Park, Daniel J., Badiane, Aida S., Colubri, Andres, Ndiaye, Mouhamadou, Sy, Ngayo, Sabeti, Pardis C., Ndiaye, Daouda, and Siddle, Katherine J.

Published

2024

35. Severity of influenza-associated hospitalisations by influenza virus type and subtype in the USA, 2010-19: a repeated cross-sectional study.

Author

Sumner, Kelsey, Masalovich, Svetlana, OHalloran, Alissa, Holstein, Rachel, Reingold, Arthur, Kirley, Pam, Alden, Nisha, Herlihy, Rachel, Meek, James, Yousey-Hindes, Kimberly, Anderson, Evan, Openo, Kyle, Monroe, Maya, Leegwater, Lauren, Henderson, Justin, Lynfield, Ruth, McMahon, Melissa, McMullen, Chelsea, Angeles, Kathy, Spina, Nancy, Engesser, Kerianne, Bennett, Nancy, Felsen, Christina, Lung, Krista, Shiltz, Eli, Thomas, Ann, Talbot, H, Schaffner, William, Swain, Ashley, George, Andrea, Rolfes, Melissa, Reed, Carrie, and Garg, Shikha

Subjects

Humans, United States, Influenza, Human, Influenza Vaccines, Cross-Sectional Studies, Influenza A Virus, H3N2 Subtype, Influenza A Virus, H1N1 Subtype, Influenza B virus, Influenza A virus, Hospitalization

Abstract

BACKGROUND: Influenza burden varies across seasons, partly due to differences in circulating influenza virus types or subtypes. Using data from the US population-based surveillance system, Influenza Hospitalization Surveillance Network (FluSurv-NET), we aimed to assess the severity of influenza-associated outcomes in individuals hospitalised with laboratory-confirmed influenza virus infections during the 2010-11 to 2018-19 influenza seasons. METHODS: To evaluate the association between influenza virus type or subtype causing the infection (influenza A H3N2, A H1N1pdm09, and B viruses) and in-hospital severity outcomes (intensive care unit [ICU] admission, use of mechanical ventilation or extracorporeal membrane oxygenation [ECMO], and death), we used FluSurv-NET to capture data for laboratory-confirmed influenza-associated hospitalisations from the 2010-11 to 2018-19 influenza seasons for individuals of all ages living in select counties in 13 US states. All individuals had to have an influenza virus test within 14 days before or during their hospital stay and an admission date between Oct 1 and April 30 of an influenza season. Exclusion criteria were individuals who did not have a complete chart review; cases from sites that contributed data for three or fewer seasons; hospital-onset cases; cases with unidentified influenza type; cases of multiple influenza virus type or subtype co-infection; or individuals younger than 6 months and ineligible for the influenza vaccine. Logistic regression models adjusted for influenza season, influenza vaccination status, age, and FluSurv-NET site compared odds of in-hospital severity by virus type or subtype. When missing, influenza A subtypes were imputed using chained equations of known subtypes by season. FINDINGS: Data for 122 941 individuals hospitalised with influenza were captured in FluSurv-NET from the 2010-11 to 2018-19 seasons; after exclusions were applied, 107 941 individuals remained and underwent influenza A virus imputation when missing A subtype (43·4%). After imputation, data for 104 969 remained and were included in the final analytic sample. Averaging across imputed datasets, 57·7% (weighted percentage) had influenza A H3N2, 24·6% had influenza A H1N1pdm09, and 17·7% had influenza B virus infections; 16·7% required ICU admission, 6·5% received mechanical ventilation or ECMO, and 3·0% died (95% CIs had a range of less than 0·1% and are not displayed). Individuals with A H1N1pdm09 had higher odds of in-hospital severe outcomes than those with A H3N2: adjusted odds ratios (ORs) for A H1N1pdm09 versus A H3N2 were 1·42 (95% CI 1·32-1·52) for ICU admission; 1·79 (1·60-2·00) for mechanical ventilation or ECMO use; and 1·25 (1·07-1·46) for death. The adjusted ORs for individuals infected with influenza B versus influenza A H3N2 were 1·06 (95% CI 1·01-1·12) for ICU admission, 1·14 (1·05-1·24) for mechanical ventilation or ECMO use, and 1·18 (1·07-1·31) for death. INTERPRETATION: Despite a higher burden of hospitalisations with influenza A H3N2, we found an increased likelihood of in-hospital severe outcomes in individuals hospitalised with influenza A H1N1pdm09 or influenza B virus. Thus, it is important for individuals to receive an annual influenza vaccine and for health-care providers to provide early antiviral treatment for patients with suspected influenza who are at increased risk of severe outcomes, not only when there is high influenza A H3N2 virus circulation but also when influenza A H1N1pdm09 and influenza B viruses are circulating. FUNDING: The US Centers for Disease Control and Prevention.

Published

2023

36. R-modes as a New Probe of Dark Matter in Neutron Stars

Author

Shirke, Swarnim, Ghosh, Suprovo, Chatterjee, Debarati, Sagunski, Laura, and Schaffner-Bielich, Jürgen

Subjects

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

Abstract

In this work, we perform the first systematic investigation of effects of the presence of dark matter on $r$-mode oscillations in neutron stars (NSs). Using a self-interacting dark matter (DM) model based on the neutron decay anomaly and a hadronic model obtained from the posterior distribution of a recent Bayesian analysis, we impose constraints on the DM self-interaction strength using recent multimessenger astrophysical observations. We also put new constraints on the DM fraction for this model of DM. The constrained DM interaction strength is then used to estimate DM self-interaction cross section and shear viscosity resulting from DM, which is found to be several orders of magnitude smaller than shear viscosity due to hadronic matter. Assuming chemical equilibrium among DM fermions and neutrons, we estimate the bulk viscosity resulting from the dark decay of neutrons considering different scenarios for the temperature dependence of the reaction rate and investigate the effect on the $r$-mode instability window. We conclude that DM shear and bulk viscosity may significantly modify the $r$-mode instability window compared with the minimal hadronic viscosities, depending on the temperature dependence of the process. We also found that for the window to be compatible with the X-ray and pulsar observational data, the rate for the dark decay process must be fast., Comment: 29 pages, 12 figures, 1 table. Manuscript published in JCAP. This is the Accepted Manuscript version of an article accepted for publication in JCAP. Neither SISSA Medialab Srl nor IOP Publishing Ltd is responsible for any errors or omissions in this version of the manuscript or any version derived from it. The Version of Record is available online at https://doi.org/10.1088/1475-7516/2023/12/008

Published

2023

37. Workforce Development Through Research-Based, Plasma-Focused Activities

Author

Kostadinova, E G, Greco, Shannon, Murdock, Maajida, Barraza-Valdez, Ernesto, Hasson, Hannah R, West-Abdallah, Imani Z, Harper, Cheryl A, Brown, Katrina, Scime, Earl, Dollar, Franklin, Greninger, Carl, Stanley, Bryan, Oxford, Elizabeth, Schaffner, David, Provenzani, Laura, Curry, Chandra Breanne, Fracchiolla, Claudia, El-Adawy, Shams, Thakur, Saikat Chakraborty, Orlov, Dmitri, and Anderson, Caroline

Subjects

Physics - Physics and Society, Physics - Plasma Physics

Abstract

This report is a summary of the mini-conference Workforce Development Through Research-Based, Plasma-Focused Science Education and Public Engagement held during the 2022 American Physical Society Division of Plasma Physics (APS DPP) annual meeting. The motivation for organizing this mini-conference originates from recent studies and community-based reports highlighting important issues with the current state of the plasma workforce. Here we summarize the main findings presented in the two speaker sessions of the mini-conference, the challenges and recommendations identified in the discussion sessions, and the results from a post-conference survey. We further provide information on initiatives and studies presented at the mini-conference, along with references to further resources., Comment: 15 pages, 4 figures

Published

2023

38. Tidal Deformability of Fermion-Boson Stars: Neutron Stars Admixed with Ultra-Light Dark Matter

Author

Diedrichs, Robin Fynn, Becker, Niklas, Jockel, Cédric, Christian, Jan-Erik, Sagunski, Laura, and Schaffner-Bielich, Jürgen

Subjects

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

Abstract

In this work we investigate the tidal deformability of a neutron star admixed with dark matter, modeled as a massive, self-interacting, complex scalar field. We derive the equations to compute the tidal deformability of the full Einstein-Hilbert-Klein-Gordon system self-consistently, and probe the influence of the scalar field mass and self-interaction strength on the total mass and tidal properties of the combined system. We find that dark matter core-like configurations lead to more compact objects with smaller tidal deformability, and dark matter cloud-like configurations lead to larger tidal deformability. Electromagnetic observations of certain cloud-like configurations would appear to violate the Buchdahl limit. The self-interaction strength is found to have a significant effect on both mass and tidal deformability. We discuss observational constraints and the connection to anomalous detections. We also investigate how this model compares to those with an effective bosonic equation of state and find the interaction strength where they converge sufficiently., Comment: 14 pages, 7 figures; Accepted for publication

Published

2023

39. What neutron stars tell about the hadron-quark phase transition: a Bayesian study

Author

Takátsy, János, Kovács, Péter, Wolf, György, and Schaffner-Bielich, Jürgen

Subjects

Astrophysics - High Energy Astrophysical Phenomena, High Energy Physics - Phenomenology, Nuclear Theory

Abstract

The existence of quark matter inside the heaviest neutron stars has been the topic of numerous recent studies, many of them suggesting that a phase transition to strongly interacting conformal matter inside neutron stars is feasible. Here we examine this hybrid star scenario using a soft and a stiff hadronic model, a constituent quark model with three quark flavours, and applying a smooth crossover transition between the two. Within a Bayesian framework, we study the effect of up-to-date constraints from neutron star observations on the equation-of-state parameters and various neutron star observables. Our results show that a pure quark core is only possible if the maximum mass of neutron stars is below $\sim2.35~M_\odot$. However, we also find, consistently with other studies, that a peak in the speed of sound, exceeding $1/3$, is highly favoured by astrophysical measurements, which might indicate the percolation of hadrons at $\sim3-4n_0$. Even though our prediction for the phase transition parameters varies depending on the specific astrophysical constraints utilized, the position of the speed of sound peak only changes slightly, while the existence of pure quark matter below $\sim4 n_0$, using our parameterization, is disfavoured. On the other hand, the preferred range for the EoS shows signs of conformality above $\sim4n_0$. Additionally, we present the difference in the upper bounds of radius estimates using the full probability density data and sharp cut-offs, and stress the necessity of using the former., Comment: 23 pages, 13 figures, accepted by Phys. Rev. D

Published

2023

40. The Value of Flexibility in a Carbon Neutral Power System

Author

Raycheva, Elena, Garrison, Jared B., Schaffner, Christian, and Hug, Gabriela

Subjects

Mathematics - Optimization and Control

Abstract

In this paper, we use a formulation of the generation expansion planning problem with hourly temporal resolution, to investigate the impact of the availability of different sources of flexibility on a carbon-neutral central European power system (with a focus on Switzerland) for the year 2040. We assess the role of flexible generation, load shifting and imports on the investment and operation of existing and newly built units. Our results show that including load shifting as part of the optimization could reduce the need for investments in both RES and conventional technologies. The combination of newly built flexible generators (gas turbines) and load shifting increases the flexibility of the simulated power system and results in the overall lowest system costs. The reduction of cross-border transmission capacity between Switzerland and its neighbors has a significant impact on the domestic operation and investments but could also affect the surrounding countries., Comment: In proceedings of the 11th Bulk Power Systems Dynamics and Control Symposium (IREP 2022), July 25-30, 2022, Banff, Canada

Published

2022

41. Parallel repetition of local simultaneous state discrimination

Author

Escolà-Farràs, Llorenç, Has, Jaròn, Ozols, Maris, Schaffner, Christian, and Tahmasbi, Mehrdad

Subjects

Quantum Physics

Abstract

Local simultaneous state discrimination (LSSD) is a recently introduced problem in quantum information processing. Its classical version is a non-local game played by non-communicating players against a referee. Based on a known probability distribution, the referee generates one input for each of the players and keeps one secret value. The players have to guess the referee's value and win if they all do so. For this game, we investigate the advantage of no-signalling strategies over classical ones. We show numerically that for three players and binary values, no-signalling strategies cannot provide any improvement over classical ones. For a certain LSSD game based on a binary symmetric channel, we show that no-signalling strategies are strictly better when multiple simultaneous instances of the game are played. Good classical strategies for this game can be defined by codes, and good no-signalling strategies by list-decoding schemes. We expand this example game to a class of games defined by an arbitrary channel, and extend the idea of using codes and list decoding to define strategies for multiple simultaneous instances of these games. Finally, we give an expression for the limit of the exponent of the classical winning probability, and show that no-signalling strategies based on list-decoding schemes achieve this limit.

Published

2022

42. Exotic Compact Objects with Two Dark Matter Fluids

Author

Cassing, Marie, Brisebois, Alexander, Azeem, Muhammad, and Schaffner-Bielich, Jürgen

Subjects

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

Abstract

The generic properties of compact objects made of two different fluids of dark matter are studied in a scale invariant approach. We investigate compact objects with a core-shell structure, where the two fluids are separated, and with mixed dark matter components, where both dark matter fluids are immersed within each other. The constellations considered are combinations of incompressible fluids, free and interacting Fermi gases, and equations of state with a vacuum term, i.e. self-bound dark matter. We find novel features in the mass-radius relations for combined dark matter compact objects which distinguishes them from compact objects with a single dark matter fluid and compact stars made of ordinary baryonic matter, as white dwarfs, neutron stars and quark stars. The maximum compactness of certain combined dark matter stars can reach values up to the causality limit for compact stars but not beyond that limit if causality of the dark matter fluids is ensured., Comment: 11 pages, 13 figures, discussions extended

Published

2022

43. Epidemiology of Invasive Nontypeable Haemophilus influenzae Disease-United States, 2008-2019.

Author

Oliver, Sara, Rubis, Amy, Soeters, Heidi, Reingold, Arthur, Barnes, Meghan, Petit, Susan, Farley, Monica, Harrison, Lee, Como-Sabetti, Kathy, Khanlian, Sarah, Wester, Rachel, Thomas, Ann, Schaffner, William, Marjuki, Henju, Wang, Xin, and Hariri, Susan

Subjects

Haemophilus influenzae, Haemophilus influenzae vaccines, epidemiology, nontypeable Haemophilus influenzae, Infant, Child, Infant, Newborn, Humans, Female, Pregnancy, United States, Aged, Haemophilus influenzae, Haemophilus Infections, Serotyping, Incidence, Postpartum Period, Infant, Newborn, Diseases

Abstract

BACKGROUND: Nontypeable Haemophilus influenzae (NTHi) is the most common cause of invasive H. influenzae disease in the United States (US). We evaluated the epidemiology of invasive NTHi disease in the US, including among pregnant women, infants, and people with human immunodeficiency virus (PWH). METHODS: We used data from population- and laboratory-based surveillance for invasive H. influenzae disease conducted in 10 sites to estimate national incidence of NTHi, and to describe epidemiology in women of childbearing age, infants aged ≤30 days (neonates), and PWH living in the surveillance catchment areas. H. influenzae isolates were sent to the Centers for Disease Control and Prevention for species confirmation, serotyping, and whole genome sequencing of select isolates. RESULTS: During 2008-⁠2019, average annual NTHi incidence in the US was 1.3/100 000 population overall, 5.8/100 000 among children aged

Published

2023

44. Changes in the Incidence of Invasive Bacterial Disease During the COVID-19 Pandemic in the United States, 2014-2020.

Author

Prasad, Namrata, Rhodes, Julia, Deng, Li, McCarthy, Natalie, Moline, Heidi, Baggs, James, Reddy, Sujan, Jernigan, John, Havers, Fiona, Sosin, Daniel, Thomas, Ann, Lynfield, Ruth, Schaffner, William, Reingold, Arthur, Burzlaff, Kari, Harrison, Lee, Petit, Susan, Farley, Monica, Herlihy, Rachel, Nanduri, Srinivas, Pilishvili, Tamara, McNamara, Lucy, Schrag, Stephanie, Fleming-Dutra, Katherine, Kobayashi, Miwako, and Arvay, Melissa

Subjects

COVID-19, United States, invasive bacterial disease, nonpharmaceutical intervention, United States, Humans, Infant, Incidence, Pandemics, COVID-19, Bacterial Infections, Streptococcus pneumoniae, Haemophilus influenzae, Streptococcus agalactiae

Abstract

BACKGROUND: Descriptions of changes in invasive bacterial disease (IBD) epidemiology during the coronavirus disease 2019 (COVID-19) pandemic in the United States are limited. METHODS: We investigated changes in the incidence of IBD due to Streptococcus pneumoniae, Haemophilus influenzae, group A Streptococcus (GAS), and group B Streptococcus (GBS). We defined the COVID-19 pandemic period as 1 March to 31 December 2020. We compared observed IBD incidences during the pandemic to expected incidences, consistent with January 2014 to February 2020 trends. We conducted secondary analysis of a health care database to assess changes in testing by blood and cerebrospinal fluid (CSF) culture during the pandemic. RESULTS: Compared with expected incidences, the observed incidences of IBD due to S. pneumoniae, H. influenzae, GAS, and GBS were 58%, 60%, 28%, and 12% lower during the pandemic period of 2020, respectively. Declines from expected incidences corresponded closely with implementation of COVID-19-associated nonpharmaceutical interventions (NPIs). Significant declines were observed across all age and race groups, and surveillance sites for S. pneumoniae and H. influenzae. Blood and CSF culture testing rates during the pandemic were comparable to previous years. CONCLUSIONS: NPIs likely contributed to the decline in IBD incidence in the United States in 2020; observed declines were unlikely to be driven by reductions in testing.

Published

2023

45. Role of vector self-interaction in Neutron Star properties

Author

Pradhan, Bikram Keshari, Chatterjee, Debarati, Gandhi, Radhika, and Schaffner-Bielich, Jürgen

Subjects

Nuclear Theory, Astrophysics - High Energy Astrophysical Phenomena

Abstract

Previous studies have claimed that there exist correlations among certain nuclear saturation parameters and neutron star observables, such as the slope of the symmetry energy and the radius of a $1.4M_{\odot}$ neutron star. However, it is not clear whether such correlations are physical or spurious, as they are not observed universally for all equation of state models. In this work, we probe the role of vector self-interaction within the framework of the Relativistic Mean Field model and its role in governing the observable stellar properties and their correlations with nuclear parameters. We confirm that the effect of this term is not only to control the high density properties of the equation of state but also to govern such correlations. We also impose a limit on the maximum strength of the vector self-interaction using recent astrophysical data., Comment: 14 pages, 10 figures

Published

2022

46. Comparison of Influenza and Coronavirus Disease 2019-Associated Hospitalizations Among Children Younger Than 18 Years Old in the United States: FluSurv-NET (October-April 2017-2021) and COVID-NET (October 2020-September 2021).

Author

Delahoy, Miranda, Ujamaa, Dawud, Taylor, Christopher, Cummings, Charisse, Anglin, Onika, Holstein, Rachel, Milucky, Jennifer, OHalloran, Alissa, Patel, Kadam, Pham, Huong, Whitaker, Michael, Chai, Shua, Alden, Nisha, Kawasaki, Breanna, Meek, James, Yousey-Hindes, Kimberly, Anderson, Evan, Openo, Kyle, Weigel, Andy, Teno, Kenzie, Reeg, Libby, Leegwater, Lauren, Lynfield, Ruth, McMahon, Melissa, Ropp, Susan, Rudin, Dominic, Muse, Alison, Spina, Nancy, Bennett, Nancy, Popham, Kevin, Billing, Laurie, Shiltz, Eli, Sutton, Melissa, Thomas, Ann, Schaffner, William, Talbot, H, Crossland, Melanie, McCaffrey, Keegan, Hall, Aron, Burns, Erin, McMorrow, Meredith, Reed, Carrie, Havers, Fiona, Garg, Shikha, and Reingold, Arthur

Subjects

COVID-19, SARS-CoV-2, children, influenza, surveillance, Adolescent, Child, Humans, United States, Aged, Aged, 80 and over, Influenza, Human, COVID-19, Pandemics, SARS-CoV-2, Hospitalization

Abstract

BACKGROUND: Influenza virus and SARS-CoV-2 are significant causes of respiratory illness in children. METHODS: Influenza- and COVID-19-associated hospitalizations among children

Published

2023

47. Secondary Cases of Invasive Disease Caused by Encapsulated and Nontypeable Haemophilus influenzae — 10 U.S. Jurisdictions, 2011–2018

Author

Oliver, Sara E, Rubis, Amy B, Soeters, Heidi M, Reingold, Arthur, Barnes, Meghan, Petit, Susan, Moore, Ashley E, Harrison, Lee H, Lynfield, Ruth, Angeles, Kathy M, Burzlaff, Kari E, Thomas, Ann, Schaffner, William, Marjuki, Henju, Wang, Xin, and Hariri, Susan

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Infectious Diseases, Immunization, Prevention, Vaccine Related, Clinical Research, Pediatric, Infection, Good Health and Well Being, Humans, United States, Infant, Haemophilus influenzae, Incidence, Haemophilus Infections, Serogroup, Anti-Bacterial Agents, Haemophilus Vaccines, General & Internal Medicine

Abstract

Haemophilus influenzae (Hi) can cause meningitis and other serious invasive disease. Encapsulated Hi is classified into six serotypes (a-f) based on chemical composition of the polysaccharide capsule; unencapsulated strains are termed nontypeable Hi (NTHi). Hi serotype b (Hib) was the most common cause of bacterial meningitis in children in the pre-Hib vaccine era, and secondary transmission of Hi among children (e.g., to household contacts and in child care facilities) (1,2) led to the Advisory Committee on Immunization Practices (ACIP) recommendation for antibiotic chemoprophylaxis to prevent Hib disease in certain circumstances.* High Hib vaccination coverage since the 1990s has substantially reduced Hib disease, and other serotypes now account for most Hi-associated invasive disease in the United States (3). Nevertheless, CDC does not currently recommend chemoprophylaxis for contacts of persons with invasive disease caused by serotypes other than Hib and by NTHi (non-b Hi). Given this changing epidemiology, U.S. surveillance data were reviewed to investigate secondary cases of invasive disease caused by Hi. The estimated prevalence of secondary transmission was 0.32% among persons with encapsulated Hi disease (≤60 days of one another) and 0.12% among persons with NTHi disease (≤14 days of one another). Isolates from all Hi case pairs were genetically closely related, and all patients with potential secondary infection had underlying medical conditions. These results strongly suggest that secondary transmission of non-b Hi occurs. Expansion of Hi chemoprophylaxis recommendations might be warranted to control invasive Hi disease in certain populations in the United States, but further analysis is needed to evaluate the potential benefits against the risks, such as increased antibiotic use.

Published

2023

48. Genome-wide association study identifies human genetic variants associated with fatal outcome from Lassa fever

Author

Kotliar, Dylan, Raju, Siddharth, Tabrizi, Shervin, Odia, Ikponmwosa, Goba, Augustine, Momoh, Mambu, Sandi, John Demby, Nair, Parvathy, Phelan, Eric, Tariyal, Ridhi, Eromon, Philomena E., Mehta, Samar, Robles-Sikisaka, Refugio, Siddle, Katherine J., Stremlau, Matt, Jalloh, Simbirie, Gire, Stephen K., Winnicki, Sarah, Chak, Bridget, Schaffner, Stephen F., Pauthner, Matthias, Karlsson, Elinor K., Chapin, Sarah R., Kennedy, Sharon G., Branco, Luis M., Kanneh, Lansana, Vitti, Joseph J., Broodie, Nisha, Gladden-Young, Adrianne, Omoniwa, Omowunmi, Jiang, Pan-Pan, Yozwiak, Nathan, Heuklom, Shannon, Moses, Lina M., Akpede, George O., Asogun, Danny A., Rubins, Kathleen, Kales, Susan, Happi, Anise N., Iruolagbe, Christopher O., Dic-Ijiewere, Mercy, Iraoyah, Kelly, Osazuwa, Omoregie O., Okonkwo, Alexander K., Kunz, Stefan, McCormick, Joseph B., Khan, S. Humarr, Honko, Anna N., Lander, Eric S., Oldstone, Michael B. A., Hensley, Lisa, Folarin, Onikepe A., Okogbenin, Sylvanus A., Günther, Stephan, Ollila, Hanna M., Tewhey, Ryan, Okokhere, Peter O., Schieffelin, John S., Andersen, Kristian G., Reilly, Steven K., Grant, Donald S., Garry, Robert F., Barnes, Kayla G., Happi, Christian T., and Sabeti, Pardis C.

Published

2024

49. Societal Cost of Racial Pneumococcal Disease Disparities in US Adults Aged 50 Years or Older

Author

Altawalbeh, Shoroq M., Wateska, Angela R., Nowalk, Mary Patricia, Lin, Chyongchiou J., Harrison, Lee H., Schaffner, William, Zimmerman, Richard K., and Smith, Kenneth J.

Published

2024

50. SYNFI: Pre-Silicon Fault Analysis of an Open-Source Secure Element

Author

Nasahl, Pascal, Osorio, Miguel, Vogel, Pirmin, Schaffner, Michael, Trippel, Timothy, Rizzo, Dominic, and Mangard, Stefan

Subjects

Computer Science - Cryptography and Security

Abstract

Fault attacks are active, physical attacks that an adversary can leverage to alter the control-flow of embedded devices to gain access to sensitive information or bypass protection mechanisms. Due to the severity of these attacks, manufacturers deploy hardware-based fault defenses into security-critical systems, such as secure elements. The development of these countermeasures is a challenging task due to the complex interplay of circuit components and because contemporary design automation tools tend to optimize inserted structures away, thereby defeating their purpose. Hence, it is critical that such countermeasures are rigorously verified post-synthesis. As classical functional verification techniques fall short of assessing the effectiveness of countermeasures, developers have to resort to methods capable of injecting faults in a simulation testbench or into a physical chip. However, developing test sequences to inject faults in simulation is an error-prone task and performing fault attacks on a chip requires specialized equipment and is incredibly time-consuming. To that end, this paper introduces SYNFI, a formal pre-silicon fault verification framework that operates on synthesized netlists. SYNFI can be used to analyze the general effect of faults on the input-output relationship in a circuit and its fault countermeasures, and thus enables hardware designers to assess and verify the effectiveness of embedded countermeasures in a systematic and semi-automatic way. To demonstrate that SYNFI is capable of handling unmodified, industry-grade netlists synthesized with commercial and open tools, we analyze OpenTitan, the first open-source secure element. In our analysis, we identified critical security weaknesses in the unprotected AES block, developed targeted countermeasures, reassessed their security, and contributed these countermeasures back to the OpenTitan repository.

Published

2022