Your search keyword '"Moss, A. G."' showing total 1,582 results

1. Discovery of the richest pulsating ultra-massive white dwarf

Author

De Geronimo, Francisco C., Uzundag, Murat, Rebassa-Mansergas, Alberto, Brown, Alex, Kilic, Mukremin, Corsico, Alejandro H., Jewett, Gracyn C., and Moss, Adam G.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

The discovery of pulsations in ultra-massive white dwarfs can help to probe their interiors and unveil their core composition and crystallized mass fraction through asteroseismic techniques. To date, the richest pulsating ultra-massive white dwarf known is BPM 37093 with 8 modes detected, for which detailed asteroseismic analysis has been performed in the past. In this work, we report the discovery of 19 pulsation modes in the ultra-massive white dwarf star WD~J0135+5722, making it the richest pulsating hydrogen-atmosphere ultramassive white dwarf known to date. %In this work, we report the discovery of pulsations in WD~J0135+5722, a hydrogen-rich ultra-massive white dwarf observed with the Gran Telescopio Canarias. This object exhibits multi-periodic luminosity variations with periods ranging from 137 to 1345 s, typical of pulsating white dwarfs in the ZZ Ceti instability strip, which is centered at $T_{\rm eff} \sim 12\,000$ K. We estimate the stellar mass of WD J0135+5722 by different methods, resulting in $M_{\star} \sim 1.12-1.14 M_{\odot}$ if the star's core is made of oxygen and neon, or $M_{\star} \sim 1.14-1.15 M_{\odot}$ if the star hosts a carbon oxygen core. Future analysis of the star periods could shed light on the core chemical composition through asteroseismology., Comment: 11 pages, 5 figures. Accepted for publication in ApJL

Published

2025

2. Seeding decay of the false vacuum

Author

Caneletti, Matteo and Moss, Ian G

Subjects

High Energy Physics - Theory, Condensed Matter - Quantum Gases

Abstract

We present a theory of false vacuum decay induced by spherical nucleation seeds. The type of seed considered has a boundary characterised by surface energy terms. The theory applies to false vacuum decay at zero and finite temperatures. Seeded nucleation may be important for enabling future false vacuum decay experiments on analogue systems using Bose Einstein Condensates (BEC). We show that our theory of seeded nucleation at finite temperature applied to a potassium BEC in two spatial dimensions agrees with numerical, real-time, simulations., Comment: 20 pages, 11 figures v2 reference added

Published

2024

3. Dark matter droplets

Author

Moss, Ian G

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, Condensed Matter - Quantum Gases, High Energy Physics - Theory

Abstract

A new model for dark matter is put forward which consists of uniform droplets of Bose Einstein condensate. In this model, structure forms rapidly, shortly after the hot big bang plasma de-ionises. The model also produces modifications to the expansion rate before droplet formation that affect the measurement of cosmological parameters from Cosmic Microwave Background data. The model could contribute to explaining why observations at high redshift see anomalously high structure formation and predict low values for the Hubble constant., Comment: 9 pages, no figures

Published

2024

4. Generalized cold-atom simulators for vacuum decay

Author

Jenkins, Alexander C., Moss, Ian G., Billam, Thomas P., Hadzibabic, Zoran, Peiris, Hiranya V., and Pontzen, Andrew

Subjects

Condensed Matter - Quantum Gases, Astrophysics - Cosmology and Nongalactic Astrophysics, General Relativity and Quantum Cosmology, High Energy Physics - Phenomenology, High Energy Physics - Theory

Abstract

Cold-atom analog experiments are a promising new tool for studying relativistic vacuum decay, enabling one to empirically probe early-Universe theories in the laboratory. However, existing proposals place stringent requirements on the atomic scattering lengths that are challenging to realize experimentally. Here we eliminate these restrictions and show that any stable mixture between two states of a bosonic isotope can be used as a faithful relativistic analog. This greatly expands the landscape of suitable experiments, and will expedite efforts to study vacuum decay with cold atoms., Comment: 10 pages, 4 figures, comments welcome; v2: reference added; v3: version accepted in Phys. Rev. A

Published

2023

5. Analogue black holes and scalar-dilaton theory

Author

Moss, Ian G.

Subjects

Black holes, Bose–Einstein condensates, analogue gravity, Physics, QC1-999

Abstract

This note analyses the long wavelength dynamics of a two horizon analogue black hole system in one spatial dimension. By introducing an effective scalar-dilaton model we show that closed form expressions can be obtained for the time-dependent Hawking flux and the energy density of the Hawking radiation. We show that, in the absence superluminal modes, there is a vacuum instability. This instability is recognisable to relativists as the analogue to the destabilisation of the Cauchy horizon of a black hole due to vacuum polarization.

Published

2024

6. Observation of false vacuum decay via bubble formation in ferromagnetic superfluids

Author

Zenesini, Alessandro, Berti, Anna, Cominotti, Riccardo, Rogora, Chiara, Moss, Ian G., Billam, Thomas P., Carusotto, Iacopo, Lamporesi, Giacomo, Recati, Alessio, and Ferrari, Gabriele

Subjects

High Energy Physics - Phenomenology, Condensed Matter - Quantum Gases, Condensed Matter - Statistical Mechanics, High Energy Physics - Theory, Quantum Physics

Abstract

In quantum field theory, the decay of an extended metastable state into the real ground state is known as ``false vacuum decay'' and it takes place via the nucleation of spatially localized bubbles. Despite the large theoretical effort to estimate the nucleation rate, experimental observations were still missing. Here, we observe bubble nucleation in isolated and highly controllable superfluid atomic systems, and we find good agreement between our results, numerical simulations and instanton theory opening the way to the emulation of out-of-equilibrium quantum field phenomena in atomic systems., Comment: 12 pages, 9 figures

Published

2023

7. WD J004917.14$-$252556.81, the Most Massive Pulsating White Dwarf

Author

Kilic, Mukremin, Córsico, Alejandro H., Moss, Adam G., Jewett, Gracyn, De Gerónimo, Francisco C., and Althaus, Leandro G.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We present APO and Gemini time-series photometry of WD J004917.14$-$252556.81, an ultramassive DA white dwarf with $T_{\rm eff} = 13020$ K and $\log{g} = 9.34$. We detect variability at two significant frequencies, making J0049$-$2525 the most massive pulsating white dwarf currently known with $M_\star=1.31~M_{\odot}$ (for a CO core) or $1.26~M_{\odot}$ (for an ONe core). J0049$-$2525 does not display any of the signatures of binary mergers, there is no evidence of magnetism, large tangential velocity, or rapid rotation. Hence, it likely formed through single star evolution and is likely to have an ONe core. Evolutionary models indicate that its interior is $\gtrsim99$% crystallized. Asteroseismology offers an unprecedented opportunity to probe its interior structure. However, the relatively few pulsation modes detected limit our ability to obtain robust seismic solutions. Instead, we provide several representative solutions that could explain the observed properties of this star. Extensive follow-up time-series photometry of this unique target has the potential to discover a significant number of additional pulsation modes that would help overcome the degeneracies in the asteroseismic fits, and enable us to probe the interior of an $\approx1.3~M_{\odot}$ crystallized white dwarf., Comment: MNRAS, in press

Published

2023

8. Analogue black holes and scalar-dilaton theory

Author

Moss, Ian G.

Subjects

General Relativity and Quantum Cosmology

Abstract

This note analyses on the long wavelength dynamics of a two horizon analogue black hole system in one spatial dimension. By introducing an effective scalar-dilaton model we show that closed form expressions can be obtained for the time-dependent Hawking flux and the energy density of the Hawking radiation. We show that, in the absence superluminal modes, there is a vacuum instability. This instability is recognisable to relativists as the analogue to the destabilisation of the Cauchy horizon of a black hole due to vacuum polarization., Comment: 12 pages, 6 figures

Published

2023

9. Mining the quantum vacuum: quantum tunnelling and particle creation

Author

Moss, Ian G. and Stasiak, Piotr Z.

Subjects

High Energy Physics - Theory

Abstract

Particle production from the vacuum is a remarkable aspect of particle physics. Prime examples are the Schwinger process of particle production in strong electric fields and the Hawking process of particle production from black holes. These processes can be viewed as quantum tunnelling of particles from the vacuum. The tunnelling approach, and the closely related instanton or complex path approaches, are reviewed here with emphasis on paths in the complex coordinate plane. The method is applied to particle production from a black hole in a magnetic field, where ultra-high energy charged particles are produced., Comment: 18 pages, 12 figures. Conference talk for "Avenues of QFT in Curved Spacetime"

Published

2023

10. Bubble nucleation in a cold spin 1 gas

Author

Billam, Thomas P., Brown, Kate, and Moss, Ian G.

Subjects

Condensed Matter - Quantum Gases, High Energy Physics - Theory

Abstract

Cold atomic gases offer the prospect of simulating the physics of the very early universe in the laboratory. In the condensate phase, the gas is described by a field theory with key features of high energy particle theory. This paper describes a three level system which undergoes a first order phase transition through the nucleation of bubbles. The theoretical investigation shows bubbles nucleating in two dimensions at non-zero temperature. There is good agreement between the bubble nucleation rates calculated from a Stochastic Projected Gross-Pitaevskii equation and from a non-perturbative instanton method. When an optical box trap is included in the simulations, the bubbles nucleate preferentially near the walls of the trap., Comment: 17 pages, 7 figures, 2 tables. arXiv admin note: text overlap with arXiv:2108.05740

Published

2022

11. The Merger Fraction of Ultramassive White Dwarfs

Author

Kilic, Mukremin, Moss, Adam G., Kosakowski, Alekzander, Bergeron, P., Conly, Annamarie A., Brown, Warren R., Toonen, Silvia, Williams, Kurtis A., and Dufour, P.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - High Energy Astrophysical Phenomena

Abstract

We search for merger products among the 25 most massive white dwarfs in the Montreal White Dwarf Database 100 pc sample through follow-up spectroscopy and high-cadence photometry. We find an unusually high fraction, 40%, of magnetic white dwarfs among this population. In addition, we identify four outliers in transverse velocity and detect rapid rotation in five objects. Our results show that $56^{+9}_{-10}$\% of the $M\approx1.3~M_{\odot}$ ultramassive white dwarfs form through mergers. This fraction is significantly higher than expected from the default binary population synthesis calculations using the $\alpha$-prescription (with $\alpha \lambda = 2$), and provides further support for efficient orbital shrinkage, such as with low values of the common envelope efficiency., Comment: MNRAS, in press

Published

2022

12. Pioneer Mother Monuments: Constructing Cultural Memory by Cynthia Culver Prescott (review)

Author

Radke Moss, Andrea G.

Published

2024

13. “Some Light on an Old Topic”: Uncovering the First Woman to Vote Dispute between Wyoming and Utah

Author

Radke-Moss, Andrea G.

Published

2024

14. An Isolated White Dwarf with a 70 second Spin Period

Author

Kilic, Mukremin, Kosakowski, Alekzander, Moss, Adam G., Bergeron, P., and Conly, Annamarie A.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We report the discovery of an isolated white dwarf with a spin period of 70 s. We obtained high speed photometry of three ultramassive white dwarfs within 100 pc, and discovered significant variability in one. SDSS J221141.80+113604.4 is a $1.27~M_{\odot}$ (assuming a CO core) magnetic white dwarf that shows 2.9\% brightness variations in the BG40 filter with a $70.32 \pm 0.04$ s period, becoming the fastest spinning isolated white dwarf currently known. A detailed model atmosphere analysis shows that it has a mixed hydrogen and helium atmosphere with a dipole field strength of $B_d = 15$ MG. Given its large mass, fast rotation, strong magnetic field, unusual atmospheric composition, and relatively large tangential velocity for its cooling age, J2211+1136 displays all of the signatures of a double white dwarf merger remnant. Long term monitoring of the spin evolution of J2211+1136 and other fast spinning isolated white dwarfs opens a new discovery space for substellar and planetary mass companions around white dwarfs. In addition, the discovery of such fast rotators outside of the ZZ Ceti instability strip suggests that some should also exist within the strip. Hence, some of the mono-periodic variables found within the instability strip may be fast spinning white dwarfs impersonating ZZ Ceti pulsators., Comment: ApJ Letters, in press

Published

2021

15. Show and Tell: An Evaluation of An Enhanced Online Instructional Video Using the Regression Point Displacement Design

Author

Moss, Brian G. and Garnsey, Beth A.

Abstract

This paper evaluates the impact of a video versus text-based instructional method on student learning with an underutilized quasi-experimental research design. Using the regression point displacement design, one of nine online classrooms was randomly assigned to receive video instruction versus eight classrooms that were allocated to text-based instruction. Classroom average pre-and posttest scores were used to compare experimental conditions. Plots of pre- and posttest data points revealed an effect in a direction indicative of additional knowledge gained for the treatment condition. Empirical models for both classroom-level and individual-level data found the treatment group significantly benefited from the instructional video method above the text-based method by approximately three percentage points. For online courses, video-based instruction resulted in better academic performance than text-based instruction. This study demonstrates the utility of the regression point displacement design as a viable method to evaluate the impact of education interventions with relatively small sample sizes and provides policy makers and educators with a tool to make informed decisions.

Published

2023

16. False vacuum decay in an ultracold spin-1 Bose gas

Author

Billam, Thomas P., Brown, Kate, and Moss, Ian G.

Subjects

Condensed Matter - Quantum Gases, High Energy Physics - Theory

Abstract

We propose an ultracold atom analogue of early universe vacuum decay using all three states of a spin-1 Bose gas. We consider a one-dimensional system with both radio frequency and optical Raman coupling between internal states. An advantage of our proposal is the lack of a time-modulated coupling, which can lead to instabilities. Within the elaborate phase structure of the system we identify an effective Klein-Gordon field and use Gross-Pitaevskii simulations within the truncated Wigner approximation to model the decay of its false vacuum. We examine the dependence of the rate of vacuum decay on particle density for $^{7}$Li and $^{41}$K and find reasonable agreement with instanton methods., Comment: 5 pages, 5 figures v2: changes to the text and figures, new licence

Published

2021

17. Simulating cosmological supercooling with a cold atom system II

Author

Billam, Thomas P., Brown, Kate, Groszek, Andrew J., and Moss, Ian G.

Subjects

Condensed Matter - Quantum Gases, Astrophysics - Cosmology and Nongalactic Astrophysics, High Energy Physics - Theory

Abstract

We perform an analysis of the supercooled state in an analogue of an early universe phase transition based on a one dimensional, two-component Bose gas with time-dependent interactions. We demonstrate that the system behaves in the same way as a thermal, relativistic Bose gas undergoing a first order phase transition. We propose a way to prepare the state of the system in the metastable phase as an analogue to supercooling in the early universe. While we show that parametric resonances in the system can be suppressed by thermal damping, we find that the theoretically estimated thermal damping in our model is too weak to suppress the resonances for realistic experimental parameters. However, we propose that experiments to investigate the effective damping rate in experiments would be worthwhile., Comment: 21 pages, 5 figures

Published

2021

18. An engineered, orthogonal auxin analog/AtTIR1(F79G) pairing improves both specificity and efficacy of the auxin degradation system in Caenorhabditis elegans.

Author

Hills-Muckey, Kelly, Martinez, Michael AQ, Stec, Natalia, Hebbar, Shilpa, Saldanha, Joanne, Medwig-Kinney, Taylor N, Moore, Frances EQ, Ivanova, Maria, Morao, Ana, Ward, JD, Moss, Eric G, Ercan, Sevinc, Zinovyeva, Anna Y, Matus, David Q, and Hammell, Christopher M

Subjects

Biochemistry and Cell Biology, Biological Sciences, Biotechnology, Bioengineering, Animals, Arabidopsis, Arabidopsis Proteins, Caenorhabditis elegans, Caenorhabditis elegans Proteins, F-Box Proteins, Indoleacetic Acids, C, elegans, AID system, CRISPR, Cas9, targeted degradation, heterochronic, RNA pol II inhibition, auxin, C. elegans, CRISPR/Cas9, Genetics, Developmental Biology, Biochemistry and cell biology

Abstract

The auxin-inducible degradation system in C. elegans allows for spatial and temporal control of protein degradation via heterologous expression of a single Arabidopsis thaliana F-box protein, transport inhibitor response 1 (AtTIR1). In this system, exogenous auxin (Indole-3-acetic acid; IAA) enhances the ability of AtTIR1 to function as a substrate recognition component that adapts engineered degron-tagged proteins to the endogenous C. elegans E3 ubiquitin ligases complex [SKR-1/2-CUL-1-F-box (SCF)], targeting them for degradation by the proteosome. While this system has been employed to dissect the developmental functions of many C. elegans proteins, we have found that several auxin-inducible degron (AID)-tagged proteins are constitutively degraded by AtTIR1 in the absence of auxin, leading to undesired loss-of-function phenotypes. In this manuscript, we adapt an orthogonal auxin derivative/mutant AtTIR1 pair [C. elegans AID version 2 (C.e.AIDv2)] that transforms the specificity of allosteric regulation of TIR1 from IAA to one that is dependent on an auxin derivative harboring a bulky aryl group (5-Ph-IAA). We find that a mutant AtTIR1(F79G) allele that alters the ligand-binding interface of TIR1 dramatically reduces ligand-independent degradation of multiple AID*-tagged proteins. In addition to solving the ectopic degradation problem for some AID-targets, the addition of 5-Ph-IAA to culture media of animals expressing AtTIR1(F79G) leads to more penetrant loss-of-function phenotypes for AID*-tagged proteins than those elicited by the AtTIR1-IAA pairing at similar auxin analog concentrations. The improved specificity and efficacy afforded by the mutant AtTIR1(F79G) allele expand the utility of the AID system and broaden the number of proteins that can be effectively targeted with it.

Published

2022

19. Black hole evaporation in de Sitter space

Author

Gregory, Ruth, Moss, Ian G., Oshita, Naritaka, and Patrick, Sam

Subjects

General Relativity and Quantum Cosmology, High Energy Physics - Theory

Abstract

We investigate the evaporation process of a Kerr-de Sitter black hole with the Unruh-Hawking-like vacuum state, which is a realistic vacuum state modelling the evaporation process of a black hole originating from gravitational collapse. We also compute the greybody factors for gravitons, photons, and conformal-coupling massless scalar particles by using the analytic solutions of the Teukolsky equation in the Kerr-de Sitter background. It turns out that the cosmological constant quenches the amplification factor and it approaches to zero towards the critical point where the Nariai and extremal limits merge together. We confirm that even near the critical point, the superradiance of gravitons is more significant than that of photons and scalar particles. Angular momentum is carried out by particles several times faster than the mass energy decreases. This means that a Kerr-de Sitter black hole rapidly spins down to a nearly Schwarzschild-de Sitter black hole before it completely evaporates. We also compute the time evolution of the Bekenstein-Hawking entropy. The total entropy of the Kerr-de Sitter black hole and cosmological horizon increases with time, which is consistent with the generalized second law of thermodynamics., Comment: 32 pages, 16 figures, version accepted by CQG

Published

2021

20. Observational constraints on Hyperinflation

Author

Bounakis, Marios, Moss, Ian G., and Rigopoulos, Gerasimos

Subjects

General Relativity and Quantum Cosmology, High Energy Physics - Theory

Abstract

We study a Hyperinflation model involving a field doublet on a hyperbolic field-space manifold and an exponential potential, providing a concise treatment of the evolution of the entropic and adiabatic perturbations around the homogeneous hyperbolic attractor solution. We find that the adiabatic spectral index narrows down the admissible values of the potential's slope to a very small region, severely restricting the state space of the allowed background solutions., Comment: 16 pages, 12 figures

Published

2020

21. Hawking-Moss transition with a black hole seed

Author

Gregory, Ruth, Moss, Ian G, Oshita, Naritaka, and Patrick, Sam

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

We extend the the concept of Hawking-Moss, or up-tunnelling, transitions in the early universe to include black hole seeds. The black hole greatly enhances the decay amplitude, however, order to have physically consistent results, we need to impose a new condition (automatically satisfied for the original Hawking-Moss instanton) that the cosmological horizon area should not increase during tunnelling. We motivate this conjecture physically in two ways. First, we look at the energetics of the process, using the formalism of extended black hole thermodynamics; secondly, we extend the stochastic inflationary formalism to include primordial black holes. Both of these methods give a physical substantiation of our conjecture., Comment: 15 pages, 2 figures

Published

2020

22. Simulating cosmological supercooling with a cold atom system

Author

Billam, Thomas P., Brown, Kate, and Moss, Ian G.

Subjects

Condensed Matter - Quantum Gases, Astrophysics - Cosmology and Nongalactic Astrophysics, High Energy Physics - Theory

Abstract

We perform an analysis of the supercooled state in an analogue to an early universe phase transition based on a one dimensional, two-component Bose gas. We demonstrate that the thermal fluctuations in the relative phase between the components are characteristic of a relativistic thermal system. Furthermore, we demonstrate the equivalence of two different approaches to the decay of the metastable state: specifically a non-perturbative thermal instanton calculation and a stochastic Gross--Pitaevskii simulation., Comment: 6 pages, 4 figures v2 expanded conclusion

Published

2020

23. Bubble nucleation at zero and nonzero temperatures

Author

Abed, Mario Gutierrez and Moss, Ian G.

Subjects

High Energy Physics - Theory

Abstract

The theory of false vacuum decay in a thermal system may have a cross-over from predominantly thermal transitions to quantum transitions as the temperature is decreased. New numerical methods and results are presented here that can be used to model thermal and vacuum bubble nucleation in this regime for cosmology and for laboratory analogues of early universe phase transitions., Comment: 11 pages, 4 figures v3 improved text

Published

2020

24. Words of Warning: A Randomized Study of the Impact of Assorted Warning Letters on Academic Probation Students

Author

Moss, Brian G. and Kelcey, Ben

Abstract

Objective: Superiority experiments supply a critical lens to probe higher education interventions because they can dismantle the collective effect of a program and identify the relative contribution of the core components. However, such lines of inquiry are generally absent in higher education literature. We draw on experimental data to probe the dominant mechanisms of a simple but promising academic probation intervention. Methods: We used a 2 × 2 factorial experiment designed to unpack the effects of an academic probation intervention and identify the dominant mechanism. Within this framework, 500 academic probation students were assigned to one of four treatment conditions or a control condition. Treatment groups were assigned to receive notification of academic probation status by either certified or regular mail (factor A) that contained either a standard or embellished letter (factor B). Results: We found that students who received embellished warning letters significantly improved subsequent academic performance. The impact on performance was 0.35 grade points when notification sent by regular mail and amplified to 0.48 grade points when sent via certified mail. The routine notification communication message did not differ from the treatment as usual method regardless of mail delivery method. Conclusions: These findings suggest the availability of low-cost, scalable interventions are available and can be identified to positively impact at-risk students' academic achievement.

Published

2022

25. Black Holes, Oscillating Instantons, and the Hawking-Moss transition

Author

Gregory, Ruth, Moss, Ian G., and Oshita, Naritaka

Subjects

High Energy Physics - Theory, General Relativity and Quantum Cosmology

Abstract

Static oscillating bounces in Schwarzschild de Sitter spacetime are investigated. The oscillating bounce with many oscillations gives a super-thick bubble wall, for which the total vacuum energy increases while the mass of the black hole decreases due to the conservation of Arnowitt-Deser-Misner (ADM) mass. We show that the transition rate of such an "up-tunneling" consuming the seed black hole is higher than that of the Hawking-Moss transition. The correspondence of analyses in the static and global coordinates in the Euclidean de Sitter space is also investigated., Comment: 24 pages, 10 figures, version accepted for publication in JHEP

Published

2020

26. Higher Dose Noninvasive Transcutaneous Auricular Vagus Nerve Stimulation Increases Feeding Volumes and White Matter Microstructural Complexity in Open-Label Study of Infants Slated for Gastrostomy Tube

Author

Jenkins, Dorothea D., Moss, Hunter G., Adams, Lauren E., Hunt, Sally, Dancy, Morgan, Huffman, Sarah M., Cook, Daniel, Jensen, Jens H., Summers, Philipp, Thompson, Sean, George, Mark S., and Badran, Bashar W.

Published

2023

27. Higgs Vacuum Decay in a Braneworld

Author

Cuspinera, Leopoldo, Gregory, Ruth, Marshall, Katie M, and Moss, Ian G

Subjects

High Energy Physics - Theory, High Energy Physics - Phenomenology

Abstract

We examine the effect of large extra dimensions on vacuum decay in the Randall-Sundrum (RS) braneworld paradigm. We assume the scalar field is confined to the brane, and compute the probability for forming an "anti de Sitter" (AdS) bubble inside a critical flat RS brane. We present the first full numerical solutions for the brane instanton considering two test potentials for the scalar field. We explore the geometrical impact of thin and thick bubble walls, and compute the instanton action in a range of cases. We conclude by commenting on a more physically realistic potential relevant for the standard model Higgs. For bubbles with large backreaction, the extra dimension has a dramatic effect on the tunnelling rate, however, for the weakly backreacting bubbles more relevant for realistic Standard Model potentials, the extra dimension has little impact., Comment: 15 pages, 6 figures

Published

2019

28. Simulating seeded vacuum decay in a cold atom system

Author

Billam, Thomas P., Gregory, Ruth, Michel, Florent, and Moss, Ian G.

Subjects

High Energy Physics - Theory, Astrophysics - Cosmology and Nongalactic Astrophysics, Condensed Matter - Quantum Gases

Abstract

We propose to test the concept of seeded vacuum decay in cosmology using an analogue gravity Bose-Einstein condensate system. The role of the nucleation seed is played by a vortex within the condensate. We present two complementary theoretical analyses that demonstrate seeded decay is the dominant decay mechanism of the false vacuum. First, we adapt the standard instanton methods to the Gross-Pitaevskii equation. Second, we use the truncated Wigner method to study vacuum decay., Comment: 5 Pages, 4 figures, new intro in v2

Published

2018

29. Higgs Cosmology and Dark Matter

Author

Moss, Ian G. and Gregory, Ruth

Subjects

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

Abstract

Higgs vacuum stability has important consequences for cosmology. In particular, we argue that if the Higgs vacuum is metastable, then the dark matter cannot contain a single black hole of mass less than $10^{15}{\rm g}$ in our entire past light cone. In addition to being the destroyer microscopic black holes, it may be possible that Higgs vacuum decay is a source of primordial black holes during inflation., Comment: 5 pages, 4 figures. Talk presented at 2nd World Summit: Exploring the Dark Side of the Universe, June 2018, University of Antilles, Guadeloupe

Published

2018

30. Negative modes of Coleman-de Luccia and black hole bubbles

Author

Gregory, Ruth, Marshall, Katie M., Michel, Florent, and Moss, Ian G.

Subjects

High Energy Physics - Theory

Abstract

We study the negative modes of gravitational instantons representing vacuum decay in asymptotically flat space-time. We consider two different vacuum decay scenarios: the Coleman-de Luccia $\mathrm{O}(4)$-symmetric bubble, and $\mathrm{O}(3) \times \mathbb{R}$ instantons with a static black hole. In spite of the similarities between the models, we find qualitatively different behaviours. In the $\mathrm{O}(4)$-symmetric case, the number of negative modes is known to be either one or infinite, depending on the sign of the kinetic term in the quadratic action. In contrast, solving the mode equation numerically for the static black hole instanton, we find only one negative mode with the kinetic term always positive outside the event horizon. The absence of additional negative modes supports the interpretation of these solutions as giving the tunnelling rate for false vacuum decay seeded by microscopic black holes., Comment: 28 pages, 11 figures, close to the version published in PRD

Published

2018

31. Analogue Gravity and Trans-Atlantic Air Travel

Author

Moss, Ian G.

Subjects

General Relativity and Quantum Cosmology

Abstract

The problem of finding a minimal-time path for an aeroplane travelling in a wind flow has a simple formulation in terms of analogue gravity. This paper gives an elementary explanation with equations and some numerical solutions., Comment: 6 pages, 6 figures, LaTeX

Published

2018

32. Impact of psychological disorders

Author

Carney, Colleen E., primary, Moss, Taryn G., additional, and Carney, Alison E., additional

Published

2023

33. “Some Light on an Old Topic” : Uncovering the First Woman to Vote Dispute between Wyoming and Utah

Author

Radke-Moss, Andrea G.

Published

2021

34. Higgs Vacuum Decay from Particle Collisions?

Author

Cuspinera, Leopoldo, Gregory, Ruth, Marshall, Katie, and Moss, Ian G

Subjects

High Energy Physics - Theory, High Energy Physics - Phenomenology

Abstract

We examine the effect of large extra dimensions on black hole seeded vacuum decay using the Randall-Sundrum model as a prototype for warped extra dimensions. We model the braneworld black hole by a tidal solution, and solve the Higgs equations of motion for the instanton on the brane. Remarkably, the action of the static instanton can be shown to be the difference in the bulk areas of the seed and remnant black holes, and we estimate these areas assuming the black holes are small compared to the bulk AdS radius. Comparing to the Hawking evaporation rate shows that small black hole seeds preferentially catalyse vacuum decay, thus extending our previous results to higher dimensional braneworld scenarios. The parameter ranges do not allow for Standard Model Higgs decay from collider black holes, but they can be relevant for cosmic ray collisions., Comment: 32 pages, 8 figures, v2 with extended introduction

Published

2018

35. Relativistic collapse of axion stars

Author

Michel, Florent and Moss, Ian G.

Subjects

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

Abstract

We study the gravitational collapse of an axion field in null coordinates, assuming spherical symmetry. Compared with previous studies, we use a simpler numerical scheme which can run, for relevant parameters, in a few minutes or less on a desktop computer. We use it to accurately determine the domains of parameter space in which the axion field forms a black hole, an axion star or a relativistic Bosenova., Comment: 7 pages, 5 figures, pdflatex

Published

2018

36. Unlocking the Potential of the Regression Discontinuity Design for Social Work Research.

Author

Moss, Brian G.

Abstract

Purpose : This article introduces the regression discontinuity design (RDD) as a valuable quasi-experimental approach for evaluating social work interventions. Methods : The RDD is outlined, providing guidance on identifying and framing research questions within its structure. Detailed explanations of analytical procedures for estimating intervention effects under both sharp (treatment assignment strictly determined by a cutoff) and fuzzy (treatment assignment is influenced but not strictly determined by a cutoff) RDD conditions are included, along with common supplemental analyses to address potential validity threats. Results : Concrete examples of social work scenarios where RDD can be effectively employed are presented, showcasing innovative approaches that can enhance the design's utility. This paper also includes code for implementing these techniques. Conclusions : By examining the applications and methodologies of RDD, this article equips social work practitioners and researchers with a versatile tool to rigorously assess the impact of interventions and advance evidence-based practice within the field. [ABSTRACT FROM AUTHOR]

Published

2025

37. Gravitational corrections to Higgs potentials

Author

Bounakis, Marios and Moss, Ian G.

Subjects

High Energy Physics - Theory

Abstract

Understanding the Higgs potential at large field values corresponding to scales in the range above $10^{10}{\rm GeV}$ is important for questions of vacuum stability, particularly in the early universe where survival of the Higgs vacuum can be an issue. In this paper we show that the Higgs potential can be derived in away which is independent of the choice of conformal frame for the spacetime metric. Questions about vacuum stability can therefore be answered unambiguously. We show that frame independence leads to new relations between the beta functions of the theory and we give improved limits on the allowed values of the Higgs curvature coupling for stability., Comment: 21 pages, 5 figures, jhep style, v2

Published

2017

38. Fermion stabilisation of extra dimensions and natural mass hierarchies

Author

Moss, Ian G.

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Theory

Abstract

Casimir forces from fermions in an extra dimension can stabilise Randall-Sundrum models. Contrary to previous expectations, the stabilisation can produce large electroweak hierarchies without fine tuning. The Casimir stabilisation occurs in the same five-dimensional fermion models which have been found to give the observed fermion mass hierarchies. This is shown for masses generated by the Higgs mechanism and by a Higgsless symmetry breaking mechanism, where new light Kaluza-Klein states are presented, Comment: LaTeX 4 pages

Published

2017

39. Fiber Ball white matter modeling reveals microstructural alterations in healthy brain aging

Author

Dhiman, Siddhartha, Fountain-Zaragoza, Stephanie, Jensen, Jens H., Fatima Falangola, Maria, McKinnon, Emilie T., Moss, Hunter G., Thorn, Kathryn E., Rieter, William J., Vittoria Spampinato, Maria, Nietert, Paul J., Helpern, Joseph A., and Benitez, Andreana

Published

2022

40. Non-Minimal Coupling of the Higgs Boson to Curvature in an Inflationary Universe

Author

Calmet, Xavier, Kuntz, Iberê, and Moss, Ian G.

Subjects

High Energy Physics - Phenomenology, Astrophysics - Cosmology and Nongalactic Astrophysics, General Relativity and Quantum Cosmology, High Energy Physics - Theory

Abstract

In the absence of new physics around $10^{10}$ GeV, the electroweak vacuum is at best metastable. This represents a major challenge for high scale inflationary models as, during the early rapid expansion of the universe, it seems difficult to understand how the Higgs vacuum would not decay to the true lower vacuum of the theory with catastrophic consequences if inflation took place at a scale above $10^{10}$ GeV. In this paper we show that the non-minimal coupling of the Higgs boson to curvature could solve this problem by generating a direct coupling of the Higgs boson to the inflationary potential thereby stabilizing the electroweak vacuum. For specific values of the Higgs field initial condition and of its non-minimal coupling, inflation can drive the Higgs field to the electroweak vacuum quickly during inflation., Comment: 11 pages

Published

2017

41. The role of fluctuation-dissipation dynamics in setting initial conditions for inflation

Author

Bastero-Gil, Mar, Berera, Arjun, Brandenberger, Robert, Moss, Ian G., Ramos, Rudnei O., and Rosa, Joao G.

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, General Relativity and Quantum Cosmology, High Energy Physics - Phenomenology, High Energy Physics - Theory

Abstract

We study the problem of initial conditions for slow-roll inflation along a plateau-like scalar potential within the framework of fluctuation-dissipation dynamics. We consider, in particular, that inflation was preceded by a radiation-dominated epoch where the inflaton is coupled to light degrees of freedom and may reach a near-equilibrium state. We show that the homogeneous field component can be sufficiently localized at the origin to trigger a period of slow-roll if the interactions between the inflaton and the thermal degrees of freedom are sufficiently strong and argue that this does not necessarily spoil the flatness of the potential at the quantum level. We further conclude that the inflaton can still be held at the origin after its potential begins to dominate the energy balance, leading to a period of thermal inflation. This then suppresses the effects of nonlinear interactions between the homogeneous and inhomogeneous field modes that could prevent the former from entering a slow-roll regime. Finally, we discuss the possibility of an early period of chaotic inflation, at large field values, followed by a first stage of reheating and subsequently by a second inflationary epoch along the plateau about the origin. This scenario could prevent an early overclosure of the Universe, at the same time yielding a low tensor-to-scalar ratio in agreement with observations., Comment: 40 pages, 11 figures, matches version published in JCAP

Published

2016

42. The Fate of the Higgs Vacuum

Author

Gregory, Ruth and Moss, Ian G.

Subjects

High Energy Physics - Theory, High Energy Physics - Phenomenology

Abstract

This talk reviews our recent work showing how tiny black holes can act as nucleation sites for the decay of the metastable Higgs vacuum. We start by discussing the formation of thin wall bubbles of true vacuum inside a false vacuum, and show how adding a black hole lowers the action of the Euclidean tunneling solution, thus strongly enhancing the probability of vacuum decay. We then review numerical results for the Higgs vacuum showing that the decay rate is even higher for these "thick wall" bubbles. The results imply either tiny black holes are not a component of our universe, or BSM corrections to the Higgs potential must stabilise our vacuum., Comment: 6 pages, 2 figures. Talk presented at ICHEP2016, 38th International Conference on High Energy Physics, 3-10 August 2016, Chicago, USA. To appear in the conference proceedings

Published

2016

43. 5-ASA induced interstitial nephritis in patients with inflammatory bowel disease: a systematic review

Author

Moss, James G., Parry, Christopher M., Holt, Richard C. L., and McWilliam, Stephen J.

Published

2022

44. Central venous access devices for the delivery of systemic anticancer therapy (CAVA): a randomised controlled trial

Author

Moss, Jonathan G, Wu, Olivia, Bodenham, Andrew R, Agarwal, Roshan, Menne, Tobias F, Jones, Brian L, Heggie, Robert, Hill, Steve, Dixon-Hughes, Judith, Soulis, Eileen, Germeni, Evi, Dillon, Susan, and McCartney, Elaine

Published

2021

45. Profiling the genetic determinants of chromatin accessibility with scalable single-cell CRISPR screens

Author

Liscovitch-Brauer, Noa, Montalbano, Antonino, Deng, Jiale, Méndez-Mancilla, Alejandro, Wessels, Hans-Hermann, Moss, Nicholas G., Kung, Chia-Yu, Sookdeo, Akash, Guo, Xinyi, Geller, Evan, Jaini, Suma, Smibert, Peter, and Sanjana, Neville E.

Published

2021

46. Vacuum stability and the scaling behaviour of the Higgs-curvature coupling

Author

Moss, Ian G.

Subjects

High Energy Physics - Theory

Abstract

Stability of the Higgs vacuum during early universe inflation is dependent on how the Higgs couples to the spacetime curvature. Limits on the curvature coupling parameter at the electroweak scale $\xi_{EW}$ are shown to be consistent only when quantum gravity effects are included and a covariant quantisation procedure, such as Vilkovisky-DeWitt, is adopted. Stability requires $\xi_{EW}>-0.03$ for a top quark mass $M_t=173.34\,{\rm GeV}$., Comment: 5 pages, 3 figures, RevTex

Published

2015

47. Higgs boson cosmology

Author

Moss, Ian G.

Subjects

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

Abstract

The discovery of the Standard Model Higgs boson opens up a range of speculative cosmological scenarios, from the formation of structure in the early universe immediately after the big bang, to relics from the electroweak phase transition one nanosecond after the big bang, on to the end of the present-day universe through vacuum decay. Higgs physics is wide-ranging, and gives an impetus to go beyond the Standard Models of particle physics and cosmology to explore the physics of ultra-high energies and quantum gravity., Comment: 15 pages, 7 figures

Published

2015

48. A Multiple-Design, Experimental Strategy: Academic Probation Warning Letter's Impact on Student Achievement

Author

Yeaton, William H. and Moss, Brian G.

Abstract

We aimed to compare the findings of three research designs to bracket effect estimates of a strongly worded warning letter delivered by certified mail to students on academic probation. We embedded an experiment within a regression discontinuity design and calculated two achievement estimates, average GPA and percentage of students remaining on probation. Study participants attended a large Midwestern college. Cohen's d experimental effect size was 0.45. Regression discontinuity design results were validated by our experimental evidence, and outcome measures were generally statistically significant. We provided additional supportive evidence using comparative RD control group design logic. Regression point displacement design results were successfully replicated using a within-study comparison inside the experiment. In the context of probation, a diverse design, replicative approach provided considerable promise for more precise estimation of intervention effectiveness. We found no deleterious impact on reenrollment and concluded that the certified letter represents an inexpensive probation policy.

Published

2020

49. Knowing Is Half the Battle, or Is It? A Randomized Experiment of the Impact of Supplemental Notification Letters on Placement Exam Participation, Preparation, and Performance

Author

Moss, Brian G., Bahr, Peter Riley, Arsenault, Leigh, and Oster, Meghan

Abstract

Community college students often are unaware of the stakes involved in their performance on placement exams, used to sort the students into their first math and English courses. In our randomized experiment of approximately 13,000 newly admitted community college students, we test whether informing students, via a supplemental notification letter, about the implications of placement exam scores influences their placement exam participation, preparation, and performance. We also test whether message framing (loss-framed vs. gain-framed) alters the effect of the information on study outcomes. We find that neither type of message has an effect on placement exam preparation or performance. We find limited evidence to suggest that the loss-framed message may have a small effect on the avoidance of placement exams by increasing the likelihood of students' submitting alternative evidence of academic preparation. Overall, our evidence suggests that students' prior knowledge about the ramifications of placement exams is not enough to improve performance. Colleges should consider alternative means of assessing college readiness, such as measures of high school achievement, and should provide students who still have to take placement exams with detailed information about test content and study materials before testing.

Published

2019

50. A temporal sequence of heterochronic gene activities promotes stage-specific developmental events in C. elegans

Author

Ivanova, Maria, primary and Moss, Eric G, additional

Published

2024