RAS_WEB

Snapshot of a new interstellar comet: 3I/ATLAS has a red and featureless spectrum Cyrielle Opitom, Colin Snodgrass, Emmanuel Jehin, Michele T. Bannister, Erica Bufanda, Sophie E. Deam, Rosemary Dorsey, Marin Ferrais, Said Hmiddouch, Matthew M. Knight, Rosita Kokotanekova, Brayden Leicester, Micha"el Marsset, Brian Murphy, Vincent Okoth, Ryan Ridden-Harper, Mathieu Vander Donckt, L’ea Ferellec, Damien Hutsemekers, Manuela Lippi, Jean Manfroid, Zouhair Benkhaldoun arXiv:2507.05226v2 Announce Type: replace Abstract: The interstellar comet 3I/ATLAS is only the third interstellar object to be discovered. Pre-perihelion measurements provide a unique opportunity to study its activity and composition, which may alter as it is heated in the coming months. We provide anRead More →

CASCO: Cosmological and AStrophysical parameters from Cosmological simulations and Observations III. The physics behind the emergence of the golden mass scale C. Tortora, V. Busillo, N. R. Napolitano, L. V. E. Koopmans, G. Covone, S. Genel, F. Villaescusa-Navarro, M. Silvestrini arXiv:2502.13589v2 Announce Type: replace Abstract: We investigate the origin and evolution of the “golden mass” (halo mass $sim10^{12} , rm M_{odot}$, stellar mass $sim5 times 10^{10} , rm M_{odot}$), linked to peak star formation efficiency, using textsc{camels} simulations based on IllustrisTNG. Exploring a range of SN/AGN feedback strengths and cosmologies ($Omega_{rm m}, sigma_8$), we find a U-shaped relation between dark-to-stellar mass ratio and stellar mass,Read More →

On the difficulty of capturing the distribution function of neutrinos in neutron star merger simulations Francois Foucart arXiv:2504.21822v2 Announce Type: replace Abstract: The collision of two neutron stars is a rich source of information about nuclear physics. In particular, the kilonova signal following a merger can help us elucidate the role of neutron stars in nucleosynthesis, and informs us about the properties of matter above nuclear saturation. Approximate modeling of neutrinos remains an important limitation to our ability to make predictions for these observables. Part of the problem is the fermionic nature of neutrinos. By the exclusion principle, the expected value $f_nu$ for the numberRead More →

Protostellar Disks Fed By Dense Collapsing Gravo-Magneto-Sheetlets Yisheng Tu, Zhi-Yun Li, Ka Ho Lam, Kengo Tomida, Chun-Yen Hsu arXiv:2307.16774v3 Announce Type: replace Abstract: Stars form from the gravitational collapse of turbulent, magnetized molecular cloud cores. Our non-ideal MHD simulations reveal that the intrinsically anisotropic magnetic resistance to gravity during the core collapse naturally generates dense gravo-magneto-sheetlets within inner protostellar envelopes — disrupted versions of classical sheet-like pseudodisks. They are embedded in a magnetically dominant background, where less dense materials flow along the local magnetic field lines and accumulate in the dense sheetlets. The sheetlets, which feed the disk predominantly through its upper and lower surfaces,Read More →

A novel approach to cosmological non-linearities as an effective fluid Leonardo Giani, Rodrigo Von Marttens, Ryan Camilleri arXiv:2410.15295v2 Announce Type: replace Abstract: We propose a two parameters extension of the flat $Lambda$CDM model to capture the impact of matter inhomogeneities on our cosmological inference. Non virialized but non-linearly evolving overdense and underdense regions, whose abundance is quantified using the Press-Schechter formalism, are collectively described by two effective perfect fluids $rho_{rm{c}},rho_{rm{v}}$ with non vanishing equation of state parameters $w_{rm{c,v}}neq 0$. These fluids are coupled to the pressureless dust, akin to an interacting DM-DE scenario. The resulting phenomenology is very rich, and could potentially address a numberRead More →

Machine Learning Tools for the IceCube-Gen2 Optical Array Francisco Javier Vara Carbonell (for the IceCube-Gen2 Collaboration), Jonas Selter (for the IceCube-Gen2 Collaboration) arXiv:2507.07844v1 Announce Type: new Abstract: Neural networks (NNs) have a great potential for future neutrino telescopes such as IceCube-Gen2, the planned high-energy extension of the IceCube observatory. IceCube-Gen2 will feature new optical sensors with multiple photomultiplier tubes (PMTs) designed to provide omnidirectional sensitivity. Neural networks excel at handling high-dimensional problems and can naturally incorporate the increased complexity of these new sensors. Additionally, their fast inference time makes them promising candidates for handling the high event rates expected from IceCube-Gen2. This contribution presents potentialRead More →

Synthesizing Sun-as-a-star flare spectra from high-resolution solar observations M. De Wilde, A. G. M. Pietrow, M. K. Druett, A. Pastor Yabar, J. Koza, I. Kontogiannis, O. Andriienko, A. Berlicki, A. R. Brunvoll, J. de la Cruz Rodr’iguez, J. T. Faber, R. Joshi, D. Kuridze, D. N’obrega-Siverio, L. H. M. Rouppe van der Voort, J. Ryb’ak, E. Scullion, A. M. Silva, Z. Vashalomidze, A. Vicente Ar’evalo, A. Wi’sniewska, R. Yadav, T. V. Zaqarashvili, J. Zbinden, E. S. {O}yre arXiv:2507.07967v1 Announce Type: new Abstract: Spatially resolved observations of the Sun and the astronomical sample size of stellar bodies are the respective key strengths of solar and stellarRead More →

JWST COMPASS: A NIRSpec G395H Transmission Spectrum of the Super-Earth GJ 357 b Jea Adams Redai, Nicholas Wogan, Nicole L. Wallack, Munazza K. Alam, Artyom Aguichine, Angie Wolfgang, Hannah R. Wakeford, Johanna Teske, Nicholas Scarsdale, Sarah E. Moran, Mercedes Lopez Morales, Annabella Meech, Peter Gao, Anna Gagnebin, Natasha E. Batalha, Natalie M. Batalha, Lili Alderson arXiv:2507.07165v1 Announce Type: new Abstract: We present JWST NIRSpec/G395H transmission spectroscopy observations of GJ 357 b, a warm ($T_{mathrm{eq}} approx 525$ K) super-Earth ($1.2 mathrm{R_{oplus}} $, $1.84 mathrm{M_{oplus}} $) orbiting a nearby M3-type star, with a median precision of 18 ppm and 27 ppm in NRS1 and NRS2, respectively. TheseRead More →

The Orbital Eccentricity-Radius Relation for Planets Orbiting M Dwarfs Sheila Sagear, Sarah Ballard, Gregory J. Gilbert, Mariangel Albornoz, Christopher Lam arXiv:2507.07169v1 Announce Type: new Abstract: The orbital eccentricity-radius relation for small planets is indicative of the predominant dynamical sculpting processes during late-stage orbital evolution. Previous studies have shown that planets orbiting Sun-like stars exhibit an eccentricity-radius trend such that larger planets have higher orbital eccentricities, and that radius gap planets may have modestly higher orbital eccentricities than planets on either side of the radius gap. In this work, we investigate the trend for a sample of smaller M dwarf stars. For a sample of 236Read More →

Correlations between Dust Extinction Features across All Wavelength Scales: From Diffuse Interstellar Bands to R(V) Andrew K. Saydjari, Gregory M. Green arXiv:2507.07162v1 Announce Type: new Abstract: Understanding variations in the dust extinction curve is imperative for using dust as a tracer of local structure in the interstellar medium, understanding dust chemistry, and observational color corrections where dust is a nuisance parameter. However, the extinction curve is complicated and exhibits features across a wide range of wavelength scales, from narrow atomic lines and diffuse interstellar bands (“DIBs”), to intermediate-scale and very broad structures (“ISS” and “VBS”), and the overall slope of the optical extinction curve, parameterizedRead More →