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How to Build an Empirical Speed Distribution for Dark Matter in the Solar Neighborhood

Tal Shpigel, Dylan Folsom, Mariangela Lisanti, Lina Necib, Mark Vogelsberger, Lars Hernquist

arXiv·2025

The dark matter flux in a direct detection experiment depends on its local speed distribution. This distribution has been inferred from simulations of Milky Way-like galaxies, but such models serve only as proxies given that no simulation directly captures the detailed evolution of our own Galaxy. This motivates alternative approaches which obtain this distribution directly from observations. In this work, we utilize 98 Milky Way analogues from the IllustrisTNG50 simulation to develop and validate a procedure for inferring the dark matter speed distribution using the kinematics of nearby stars. We find that the dark matter that originated from old mergers, plus that from recent non-luminous accretions, is well described by a Maxwell-Boltzmann speed distribution centered at the local standard-of-rest velocity. Meanwhile, recently accreted dark matter from massive mergers has speeds that can be traced from the associated stellar debris of these events. The stellar populations systematically underestimate the velocity dispersion of their dark matter counterparts, but a simple kinematic boost brings the two into good alignment. Using the TNG50 host galaxies, we demonstrate that combining these two contributions provides an accurate reconstruction of the local dark matter speeds. As an application of the procedure to our own Galaxy, we utilize stellar kinematic data from Gaia to quantify how the dark matter remnants from the Milky Way's last major merger impact its speed distribution in the Solar neighborhood.

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Dark Matter Velocity Distributions for Direct Detection: Astrophysical Uncertainties are Smaller Than They Appear

Dylan Folsom, Carlos Blanco, Mariangela Lisanti, Lina Necib, Mark Vogelsberger, Lars Hernquist

arXiv·2025

The sensitivity of direct detection experiments depends on the phase-space distribution of dark matter near the Sun, which can be modeled theoretically using cosmological hydrodynamical simulations of Milky Way-like galaxies. However, capturing the halo-to-halo variation in the local dark matter speeds -- a necessary step for quantifying the astrophysical uncertainties that feed into experimental results -- requires a sufficiently large sample of simulated galaxies, which has been a challenge. In this work, we quantify this variation with nearly one hundred Milky Way-like galaxies from the IllustrisTNG50 simulation, the largest sample to date at this resolution. Moreover, we introduce a novel phase-space scaling procedure that endows every system with a reference frame that accurately reproduces the local standard-of-rest speed of our Galaxy, providing a principled way of extrapolating the simulation results to real-world data. The predicted speed distributions are consistent with the Standard Halo Model, a Maxwell-Boltzmann distribution peaked at the local circular speed and truncated at the escape speed. The dark matter-nucleon cross section limits placed by these speed distributions vary by ~60% about the median. This places the 1-sigma astrophysical uncertainty at or below the level of the systematic uncertainty of current ton-scale detectors, even down to the energy threshold. The predicted uncertainty remains unchanged when sub-selecting on those TNG galaxies with merger histories similar to the Milky Way. Tabulated speed distributions, as well as Maxwell-Boltzmann fits, are provided for use in computing direct detection bounds or projecting sensitivities.

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Probabilistic Inference of the Structure and Orbit of Milky Way Satellites with Semi-Analytic Modeling

Dylan Folsom, Oren Slone, Mariangela Lisanti, Fangzhou Jiang, Manoj Kaplinghat

arXiv·2023

Semi-analytic modeling furnishes an efficient avenue for characterizing the properties of dark matter halos associated with satellites of Milky Way-like systems, as it easily accounts for uncertainties arising from halo-to-halo variance, the orbital disruption of satellites, baryonic feedback, and the stellar-to-halo mass (SMHM) relation. We use the SatGen semi-analytic satellite generator -- which incorporates both empirical models of the galaxy-halo connection in the field as well as analytic prescriptions for the orbital evolution of these satellites after they enter a host galaxy -- to create large samples of Milky Way-like systems and their satellites. By selecting satellites in the sample that match the observed properties of a particular dwarf galaxy, we can then infer arbitrary properties of the satellite galaxy within the Cold Dark Matter paradigm. For the Milky Way's classical dwarfs, we provide inferred values (with associated uncertainties) for the maximum circular velocity $v_{max}$ and the radius $r_{max}$ at which it occurs, varying over two choices of feedback model and two prescriptions for the SMHM relation that populate dark matter halos with physically distinct galaxies. While simple empirical scaling relations can recover the median inferred value for $v_{max}$ and $r_{max}$, this approach provides realistic correlated uncertainties and aids interpretability through variation of the model. For these different models, we also demonstrate how the internal properties of a satellite's dark matter profile correlate with its orbit, and we show that it is difficult to reproduce observations of the Fornax dwarf without strong baryonic feedback. The technique developed in this work is flexible in its application of observational data and can leverage arbitrary information about the satellite galaxies to make inferences about their dark matter halos and population statistics.

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Lean4Lean: Verifying a Typechecker for Lean, in Lean

Mario Carneiro

arXiv·2024

In this paper we present a new "external checker" for the Lean theorem prover, written in Lean itself. This is the first complete typechecker for Lean 4 other than the reference implementation in C++ used by Lean itself, and our new checker is competitive with the original, running between 20% and 50% slower and usable to verify all of Lean's mathlib library, forming an additional step in Lean's aim to self-host the full elaborator and compiler. Moreover, because the checker is written in a language which admits formal verification, it is possible to state and prove properties about the kernel itself, and we report on progress to formalize the Lean type theory abstractly and prove some theorems about it. Finally, we combine these to get a proof of correctness of parts of the kernel. We plan to use this project to help justify any future changes to the kernel and type theory and ensure unsoundness does not sneak in through either the abstract theory or implementation bugs. The verification is already paying off, as one soundness bug has been spotted and fixed as a result of this work.

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“We are captives to digital media surveillance” Netizens awareness and perception of social media surveillance

Ifeanyichukwu Valerie Oguafor, Raziye Nevzat

Information Development·2023·4 citations

With the increasing use of social media and the frequent question of privacy invasion, this study aims to give an insight into young adult netizen's-citizens of the internet and people born into the digital era- perception of the existing surveillance culture surrounding social media today as studies and recent statistics have shown that young adults all over the world make up the greater percentage of social media users. While this paper is centered around privacy on social media and information capitalism as key theoretical frameworks that conceptualizes surveillance and participatory surveillance system, this study gives an exploratory understanding of netizens opinion on the issue as we investigate their awareness and perception of social media surveillance. Using a qualitative method, this study utilizes interviews with 35 university students between the ages of 18–25 as a primary source of data collection. Findings from this study show although netizens are aware of the surveillance culture on social media, they strongly believe that they are captives of social media surveillance. Participatory surveillance occurs amongst them only because they have little or no choice as surveillance is embedded in the digital world they choose to participate in. Lastly, participants believe that it is difficult to hold a faceless watcher accountable so they do not question the system.

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Existentialism and Art-Horror

STUART HANSCOMB

Sartre Studies International·2010

This article explores the relationship between existentialism and the horror genre. Noël Carroll and others have proposed that horror monsters defy established categories. Carroll also argues that the emotion they provoke — 'art-horror' — is a 'composite' of fear and disgust. I argue that the sometimes horrifying images and metaphors of Sartre's early philosophy, which correlate with nausea and anxiety, have a non-coincidental commonality with art-horror explained by existentialism's preoccupation with the interstitial nature of the self. Further, it is argued that, as with some of the more sophisticated examples of the horror genre, the way for existential protagonists like Roquentin and Gregor Samsa to meet the challenge of the horrifying involves an accommodation of these features of the existential condition within their developing identity, which results in them appearing monstrous to others. Lastly, it is claimed that the association between existentialism and art-horror can explain the (paradoxical) appeal of horror.

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Defining paganism in the Carolingian world

James Palmer

Early Medieval Europe·2007·18 citations

Generations of scholars have looked for evidence of ‘paganism’ in continental sources from the eighth and ninth centuries. This paper surveys some of the key problems in defining and conceptualizing the available literary evidence for such a project. Part one argues for a return to the sources to help escape the intellectual baggage created by discussions of ‘pan‐Germanic paganism’, interpretatio Romana and, more recently, folk practices. From the perspective of the sources’ producers, paganism needs to be understood as a category of difference employed to provide a better definition of Christianity itself. In part two this line of thought is pursued through a brief study of the ways in which classical learning framed not only Carolingian attitudes to paganism, but also related strategies of moralizing.

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‘What makes you think Theology is a subject?’

Trevor Williams

Journal for the Study of Religion·2018

This article focuses on a topic, that is captured in a question that Richard Dawkins raised in 1993: ‘What makes you think Theology is a subject?’ My view is that this question is a symptom of how Theology is under attack from many quarters today – from the fearful believers who see it as a threat to their faith, to the secularists who see it as a threat to truth. Foremost among the opponents is Richard Dawkins. Outraged by a donation to Cambridge for the study of theology, he contrasts the usefulness of science with the uselessness of Theology. The question though, is: What is Theology? In this chapter, I draw a distinction between Confessional Theology and Critical Theology. By Confessional Theology I mean the affirmation of an exclusive point of reference by which all other claims to authority and knowledge are judged. Thus Christians ‘confess Jesus Christ is Lord’, and Confessional Theology is the rational articulation of the Christian Faith from within the circle of Faith – the convictions, experiences, and hopes grounded in the story of Jesus and characterized by commitment and involvement. However, there are ways in which both scientists and theologians, and the two types of Theology, can go wrong.

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Highest Rated Papers

Project MUSE -- Verification required!

How to Build an Empirical Speed Distribution for Dark Matter in the Solar Neighborhood

Dark Matter Velocity Distributions for Direct Detection: Astrophysical Uncertainties are Smaller Than They Appear

Probabilistic Inference of the Structure and Orbit of Milky Way Satellites with Semi-Analytic Modeling

Lean4Lean: Verifying a Typechecker for Lean, in Lean

Correction: Influence of pseudo-Jahn–Teller activity on the singlet–triplet gap of azaphenalenes - Physical Chemistry Chemical Physics (RSC Publishing) DOI:10.1039/D5CP90132D

Unlocking inverted singlet–triplet gap in alternant hydrocarbons with heteroatoms

“We are captives to digital media surveillance” Netizens awareness and perception of social media surveillance

Existentialism and Art-Horror

Defining paganism in the Carolingian world

‘What makes you think Theology is a subject?’

On medical ideology and the production of docile doctors: The politics of care in an age of authoritarianism