Your search keyword '"Ward B."' showing total 5,624 results

1. Adjusting the Potential Field Source Surface Height Based on Magnetohydrodynamic Simulations

Author

Zhenguang Huang, Gábor Tóth, Jia Huang, Nishtha Sachdeva, Bart van der Holst, and Ward B. Manchester

Subjects

Solar magnetic fields, Solar cycle, Magnetohydrodynamics, Astrophysics, QB460-466

Abstract

A potential field solution is widely used to extrapolate the coronal magnetic field above the Sun’s surface to a certain height. This model applies the current-free approximation and assumes that the magnetic field is entirely radial beyond the source surface height, which is defined as the radial distance from the center of the Sun. Even though the source surface is commonly specified at 2.5 R _s (solar radii), previous studies have suggested that this value is not optimal in all cases. In this study, we propose a novel approach to specify the source surface height by comparing the areas of the open magnetic field regions from the potential field solution with predictions made by a magnetohydrodynamic model, in our case the Alfvén Wave Solar atmosphere Model. We find that the adjusted source surface height is significantly less than 2.5 R _s near solar minimum and slightly larger than 2.5 R _s near solar maximum. We also report that the adjusted source surface height can provide a better open flux agreement with the observations near the solar minimum, while the comparison near the solar maximum is slightly worse.

Published

2024

2. The Faraday Effect Tracker of Coronal and Heliospheric Structures (FETCH) instrument

Author

Elizabeth A. Jensen, Nat Gopalswamy, Lynn B. Wilson, Lan K. Jian, Shing F. Fung, Teresa Nieves-Chinchilla, Marta Shelton, Lihua Li, Manohar Deshpande, Lloyd Purves, Joseph Lazio, Ward B. Manchester, Brian E. Wood, Jason E. Kooi, David B. Wexler, Stuart Bale, Alexei Pevtsov, Bernard V. Jackson, and Megan N. Kenny

Subjects

solar corona, coronal magnetic fields, coronal plasma density, coronal mass ejection, polarimetry, Faraday rotation (FR), Astronomy, QB1-991, Geophysics. Cosmic physics, QC801-809

Abstract

There continue to be open questions regarding the solar wind and coronal mass ejections (CMEs). For example: how do magnetic fields within CMEs and corotating/stream interaction regions (CIRs/SIRs) evolve in the inner heliosphere? What is the radially distributed magnetic profile of shock-driving CMEs? What is the internal magnetic structure of CMEs that cause magnetic storms? It is clear that these questions involve the magnetic configurations of solar wind and transient interplanetary plasma structures, for which we have limited knowledge. In order to better understand the origin of the magnetic field variability in steady-state structures and transient events, it is necessary to probe the magnetic field in Earth-directed structures/disturbances. This is the goal of the Multiview Observatory for Solar Terrestrial Science (MOST) mission (Gopalswamy et al., 2022). For MOST to answer the aforementioned questions, we propose the instrument concept of the Faraday Effect Tracker of Coronal and Heliospheric structures (FETCH), a simultaneous quad-line-of-sight polarization radio remote-sensing instrument. With FETCH, spacecraft radio beams passing through the Sun–Earth line offer the possibility of obtaining information of plasma conditions via analysis of radio propagation effects such as Faraday rotation and wave dispersion, which provide information of the magnetic field and total electron content (TEC). This is the goal of the FETCH instrument, one of ten instruments proposed to be hosted on the MOST mission. The MOST mission will provide an unprecedented opportunity to achieve NASA’s heliophysics science goal to “explore and characterize the physical processes in the space environment from the Sun” (Gopalswamy et al., 2022).

Published

2023

3. Modeling the Solar Wind during Different Phases of the Last Solar Cycle

Author

Zhenguang Huang, Gábor Tóth, Nishtha Sachdeva, Lulu Zhao, Bart van der Holst, Igor Sokolov, Ward B. Manchester, and Tamas I. Gombosi

Subjects

Magnetohydrodynamics, Solar wind, Solar cycle, Astrophysics, QB460-466

Abstract

We describe our first attempt to systematically simulate the solar wind during different phases of the last solar cycle with the Alfvén Wave Solar atmosphere Model (AWSoM) developed at the University of Michigan. Key to this study is the determination of the optimal values of one of the most important input parameters of the model, the Poynting flux parameter, which prescribes the energy flux passing through the chromospheric boundary of the model in the form of Alfvén wave turbulence. It is found that the optimal value of the Poynting flux parameter is correlated with the area of the open magnetic field regions with the Spearman’s correlation coefficient of 0.96 and anticorrelated with the average unsigned radial component of the magnetic field with the Spearman’s correlation coefficient of −0.91. Moreover, the Poynting flux in the open field regions is approximately constant in the last solar cycle, which needs to be validated with observations and can shed light on how Alfvén wave turbulence accelerates the solar wind during different phases of the solar cycle. Our results can also be used to set the Poynting flux parameter for real-time solar wind simulations with AWSoM.

Published

2023

4. On the importance of investigating CME complexity evolution during interplanetary propagation

Author

Réka M. Winslow, Camilla Scolini, Lan K. Jian, Teresa Nieves-Chinchilla, Manuela Temmer, Fernando Carcaboso, Brigitte Schmieder, Stefaan Poedts, Benjamin J. Lynch, Brian E. Wood, Erika Palmerio, Noé Lugaz, Charles J. Farrugia, Christina O. Lee, Emma E. Davies, Florian Regnault, Tarik M. Salman, Tibor Török, Nada Al-Haddad, Angelos Vourlidas, Ward B. Manchester, Meng Jin, Benoit Lavraud, and Antoinette B. Galvin

Subjects

CME, heliosphere, magnetic ejecta, flux rope, Sun, Astronomy, QB1-991, Geophysics. Cosmic physics, QC801-809

Abstract

This perspective paper brings to light the need for comprehensive studies on the evolution of interplanetary coronal mass ejection (ICME) complexity during propagation. To date, few studies of ICME complexity exist. Here, we define ICME complexity and associated changes in complexity, describe recent works and their limitations, and outline key science questions that need to be tackled. Fundamental research on ICME complexity changes from the solar corona to 1 AU and beyond is critical to our physical understanding of the evolution and interaction of transients in the inner heliosphere. Furthermore, a comprehensive understanding of such changes is required to understand the space weather impact of ICMEs at different heliospheric locations and to improve on predictive space weather models.

Published

2022

5. Incorporating polar field data for improved solar flare prediction

Author

Mehmet Aktukmak, Zeyu Sun, Monica Bobra, Tamas Gombosi, Ward B. Manchester IV, Yang Chen, and Alfred Hero

Subjects

solar flare prediction, polar fields, solar cycle, mixture modeling, active regions, Astronomy, QB1-991, Geophysics. Cosmic physics, QC801-809

Abstract

In this paper, we consider incorporating data associated with the sun’s north and south polar field strengths to improve solar flare prediction performance using machine learning models. When used to supplement local data from active regions on the photospheric magnetic field of the sun, the polar field data provides global information to the predictor. While such global features have been previously proposed for predicting the next solar cycle’s intensity, in this paper we propose using them to help classify individual solar flares. We conduct experiments using HMI data employing four different machine learning algorithms that can exploit polar field information. Additionally, we propose a novel probabilistic mixture of experts model that can simply and effectively incorporate polar field data and provide on-par prediction performance with state-of-the-art solar flare prediction algorithms such as the Recurrent Neural Network (RNN). Our experimental results indicate the usefulness of the polar field data for solar flare prediction, which can improve Heidke Skill Score (HSS2) by as much as 10.1%1.

Published

2022

6. Amplitude-Based IR-Improvement in Precision LHC$/$FCC Physics

Author

Ward, B. F. L., Jadach, S., Placzek, W., Skrzypek, M., Was, Z., and Yost, S. A.

Subjects

High Energy Physics - Phenomenology

Abstract

We present recent results based on the IR-improvement of unintegrable singularities in the infrared regime via amplitude-based resummation in $QED \times QCD \subset SU(2)_L \times U_1 \times SU(3)_c$. In the context of precision LHC$/$FCC physics, we focus on specific examples, such as the removal of QED contamination in PDFs evolved from data at ${Q_0}^2 \sim 2\; {\text{GeV}}^2$ and used in the evaluating precision observables in $pp \rightarrow Z + X \rightarrow \ell\bar{\ell} + X'$, in which we discuss new results and new issues., Comment: 6 pages, 4 figures, presented by BFLW at ICHEP 2024, Prague, CZ, July 18, 2024. arXiv admin note: substantial text overlap with arXiv:2410.06226

Published

2024

7. Phenomenology of matching exponentiated photonic radiation to a QED-corrected parton shower in KKMChh

Author

Yost, Scott A., Ward, B. F. L., and Wąs, Zbigniew

Subjects

High Energy Physics - Phenomenology

Abstract

KKMChh is a precision Monte Carlo program for photonic and electroweak radiative corrections to hadron scattering, implementing the amplitude-level exponentiation originally developed for electron-positron scattering at the quark level, modeling initial and final state QED radiation as well as initial-final interference to all orders in a soft-photon approximation, adding hard photon corrections through second order next-to-leading logarithm. A previous ICHEP talk introduced a matching procedure NISR (negative initial-state radiation) to match the exponentiated photon radiation from the quarks to a QED-corrected parton shower. Here, we describe its effect on forward-backward asymmetry calculations of interest for a precise determination of the electroweak mixing angle., Comment: Presented by S. Yost at the 42nd International Conference on High Energy Physics (ICHEP2024), 18-24 July 2024, Prague, Czech Republic. 3 pages, 1 figure

Published

2024

8. KKMCee: Multi-photon MC for lepton and quark pair production at lepton colliders

Author

Yost, Scott A., Jadach, Stanisław, Ward, B. F. L., Wąs, Zbigniew, and Siódmok, Andrzej

Subjects

High Energy Physics - Phenomenology

Abstract

We present an overview of the Monte Carlo event generator KKMCee for lepton and quark pair production in the high energy electron-positron annihilation process. We note that it is still the most sophisticated event generator for such processes. Its entire source code has been rewritten in C++. We have verified that the new version, KKMCee 5.00, reproduces the benchmarks of the older code in FORTRAN 77. We discuss a number of improvements in the MC algorithm and its interfaces., Comment: Presented by S. Yost at the 42nd International Conference on High Energy Physics (ICHEP2024), 18-24 July 2024, Prague, Czech Republic. 6 pages, 3 figures

Published

2024

9. Outlook for the Theoretical Precision of the Luminosity at Future Lepton Colliders

Author

Ward, B. F. L., Jadach, S., Placzek, W., Skrzypek, M., and Yost, S. A.

Subjects

High Energy Physics - Phenomenology

Abstract

The LEP precision physics requirements on the theoretical precision tag for the respective luminosity were $0.054 \%$ ($0.061\%$) at $M_Z$, where the former (latter) LEP result has (does not have) the pairs correction. For the contemplated FCC-ee, ILC, and CEPC Higgs/EW factories, one needs improvement at $M_Z$ to at least $0.01\%$ for the theoretical precision tag. We discuss the paths one may take to even exceed this latter goal and present an update on the current expectations for both $M_Z$ and proposed higher energy scenarios., Comment: 3 pages, 3 figures, poster presented by BFLW at ICHEP 2024, Prague, CZ, on 7/18/2024

Published

2024

10. Collinearly Enhanced YFS MC Approach to Precision High Energy Collider Physics

Author

Ward, B. F. L., Jadach, S., and Was, Z.

Subjects

High Energy Physics - Phenomenology

Abstract

We improve the YFS IR resummation theory so that it includes all of the attendant collinear contributions which exponentiate. The attendant new resummed contributions are shown to agree with known results from the collinear factorization approach. We argue that they improve the corresponding precision tag for a given level of exactness in the respective YFS hard radiation residuals as the latter are realized in the YFS MC approach to precision high-energy collider physics., Comment: 3 pages, no figures, poster presented by BFLW at ICHEP 2024, Prague, CZ, on 7/19/2024

Published

2024

11. YFS Exponentiation -- Gate to Precision Accelerator Physics Experiments

Author

Ward, B. F. L.

Subjects

High Energy Physics - Phenomenology

Abstract

We present the history and current status of the YFS Monte Carlo approach to precision theory for accelerator physics experiments. Key contributions of Prof. Stanislaw Jadach are highlighted, Comment: 12 pages, 5 figures, presented at the 30$^{th}$ Cracow Epiphany Conference on Precision Physics at High Energy Colliders, Cracow, PL, 8 -12 January, 2024

Published

2024

12. Modern Faraday Rotation Studies to Probe the Solar Wind

Author

Jason E. Kooi, David B. Wexler, Elizabeth A. Jensen, Megan N. Kenny, Teresa Nieves-Chinchilla, Lynn B. Wilson, Brian E. Wood, Lan K. Jian, Shing F. Fung, Alexei Pevtsov, Nat Gopalswamy, and Ward B. Manchester

Subjects

Sun, solar corona, coronal mass ejection, coronal magnetic fields, radio astronomy, polarimetry, Astronomy, QB1-991, Geophysics. Cosmic physics, QC801-809

Abstract

For decades, observations of Faraday rotation have provided unique insights into the plasma density and magnetic field structure of the solar wind. Faraday rotation (FR) is the rotation of the plane of polarization when linearly polarized radiation propagates through a magnetized plasma, such as the solar corona, coronal mass ejection (CME), or stream interaction region. FR measurements are very versatile: they provide a deeper understanding of the large-scale coronal magnetic field over a range of heliocentric distances (especially ≈1.5 to 20 R⊙) not typically accessible to in situ spacecraft observations; detection of small-timescale variations in FR can provide information on magnetic field fluctuations and magnetohydrodynamic wave activity; and measurement of differential FR can be used to detect electric currents. FR depends on the integrated product of the plasma density and the magnetic field component along the line of sight to the observer; historically, models have been used to distinguish between their contributions to FR. In the last two decades, though, new methods have been developed to complement FR observations with independent measurements of the plasma density based on the choice of background radio source: calculation of the dispersion measure (pulsars), measurement of Thomson scattering brightness (radio galaxies), and application of radio ranging and apparent-Doppler tracking (spacecraft). New methods and new technology now make it possible for FR observations of solar wind structures to return not only the magnitude of the magnetic field, but also the full vector orientation. In the case of a CME, discerning the internal magnetic flux rope structure is critical for space weather applications.

Published

2022

13. Investigating a Solar Wind Stream Interaction Region using Interplanetary Spacecraft Radio Signals: A Magnetohydrodynamic Simulation Study

Author

David B. Wexler, Ward B. Manchester, Lan K. Jian, Lynn B. Wilson III, Natchimuthuk Gopalswamy, Paul Song, Jason E. Kooi, Bart van der Holst, and Elizabeth A. Jensen

Subjects

Heliosphere, Solar wind, Interplanetary physics, Astrophysics, QB460-466

Abstract

Stream interaction regions (SIRs) are spiral heliospheric structures that arise at the interface between fast and preceding slow solar wind regions. SIR enhancements of density and magnetic field intensity, often with magnetic polarity inversion, are potentially geoeffective and therefore important in the analysis of space weather. We studied an MHD heliospheric simulation containing a well-defined SIR using a new instrument concept based on trans-heliospheric radio sensing: Faraday Effect Tracker of Coronal and Heliospheric structures (FETCH). FETCH uses line-of-sight radio propagation techniques to measure Faraday rotation and electron column density. Analysis of the simulated FETCH observations clearly demonstrated density and magnetic field enhancements, and magnetic polarity reversal, all of which were confirmed in Wind spacecraft measurements at 1 au. FETCH provided 4.5–5.7 days lead times for predicting the arrival of SIR features at Earth. The SIR radial speed was estimated to be 350–390 km s ^−1 . These initial results hold promise that FETCH will be valuable in detecting and characterizing the inner heliosphere SIR properties well ahead of their presentation in the local geospace environment.

Published

2023

14. Solar Wind Modeling with the Alfvén Wave Solar atmosphere Model Driven by HMI-based Near-real-time Maps by the National Solar Observatory

Author

Nishtha Sachdeva, Ward B. Manchester IV, Igor Sokolov, Zhenguang Huang, Alexander Pevtsov, Luca Bertello, Alexei A. Pevtsov, Gabor Toth, Bart van der Holst, and Carl J. Henney

Subjects

Magnetogram, Magnetohydrodynamics, Magnetohydrodynamical simulations, Solar wind, Astrophysics, QB460-466

Abstract

We explore the performance of the Alfvén Wave Solar atmosphere Model with near-real-time (NRT) synoptic maps of the photospheric vector magnetic field. These maps, produced by assimilating data from the Helioseismic Magnetic Imager (HMI) on board the Solar Dynamics Observatory, use a different method developed at the National Solar Observatory (NSO) to provide a near contemporaneous source of data to drive numerical models. Here, we apply these NSO-HMI-NRT maps to simulate three full Carrington rotations: 2107.69 (centered on the 2011 March 7 20:12 CME event), 2123.5 (centered on 2012 May 11), and 2219.12 (centered on the 2019 July 2 solar eclipse), which together cover various activity levels for solar cycle 24. We show the simulation results, which reproduce both extreme ultraviolet emission from the low corona while simultaneously matching in situ observations at 1 au as well as quantify the total unsigned open magnetic flux from these maps.

Published

2023

15. Adjusting the Potential Field Source Surface Height Based on MHD Simulations

Author

Huang, Zhenguang, Toth, Gabor, Huang, Jia, Sachdeva, Nishtha, van der Holst, Bart, and Manchester, Ward B.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

A potential field solution is widely used to extrapolate the coronal magnetic field above the Sun's surface to a certain height. This model applies the current-free approximation and assumes that the magnetic field is entirely radial beyond the source surface height, which is defined as the radial distance from the center of the Sun. Even though the source surface is commonly specified at 2.5 Rs (solar radii), previous studies have suggested that this value is not optimal in all cases. In this study, we propose a novel approach to specify the source surface height, by comparing the areas of the open magnetic field regions from the potential field solution with predictions made by a magnetohydrodynamics model, in our case the Alfven Wave Solar atmosphere Model. We find that the adjusted source surface height is significantly less than 2.5 Rs near solar minimum, and slightly larger than 2.5 Rs near solar maximum. We also report that the adjusted source surface height can provide a better open flux agreement with the observations near the solar minimum, while the comparison near the solar maximum is slightly worse., Comment: 15 pages, 5 figures, 1 table, submitted ApjL

Published

2024

16. Extended MHD modeling of the steady solar corona and the solar wind

Author

Tamas I. Gombosi, Bart van der Holst, Ward B. Manchester, and Igor V. Sokolov

Subjects

Sun, Solar wind, MHD, Global simulations, Space weather, Astronomy, QB1-991, Physics, QC1-999

Abstract

Abstract The history and present state of large-scale magnetohydrodynamic modeling of the solar corona and the solar wind with steady or quasi-steady coronal physics is reviewed. We put the evolution of ideas leading to the recognition of the existence of an expanding solar atmosphere into historical context. The development and main features of the first generation of global corona and solar wind models are described in detail. This historical perspective is also applied to the present suite of global corona and solar wind models. We discuss the evolution of new ideas and their implementation into numerical simulation codes. We point out the scientific and computational challenges facing these models and discuss the ways various groups tried to overcome these challenges. Next, we discuss the latest, state-of-the art models and point to the expected next steps in modeling the corona and the interplanetary medium.

Published

2018

17. Little evolution of dust emissivity in bright infrared galaxies from $2 < z < 6$

Author

Ward, B. A., Eales, S. A., Ivison, R. J., and Arumugam, V.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Variations in the dust emissivity index, $\beta$, within and between galaxies, are evidence that the chemistry and physics of dust must vary on large scales, although the nature of the physical and/or chemical variations is still unknown. In this paper we estimate values of $\beta$ and dust temperature for a sample of 109 dusty star-forming galaxies (DSFGs) over the range, $2 < z < 6$. We compare the results obtained with both an optically-thin model and a general opacity model, finding that our estimates of $\beta$ are similar between the models but our estimates of dust temperature are not. We find no evidence of a change in $\beta$ with redshift, with a median value of $\beta = 1.96$ for the optically-thin model with a confidence interval (16 - 84%) of 1.67 to 2.35 for the population. Using simulations, we estimate the measurement errors from our procedure and show that the variation of $\beta$ in the population results from intrinsic variations in the properties of the dust in DSFGs. At a fixed far-infrared luminosity, we find no evidence for a change in dust temperature, $T_\textrm{dust}$, with redshift. After allowing for the effects of correlated measurement errors, we find an inverse correlation between $\beta$ and $T_\textrm{dust}$ in DSFGs, for which there is also evidence in low-redshift galaxies., Comment: 16 pages, accepted for publication in MNRAS

Published

2024

18. New Results from IR-Improved Amplitude-Based Resummation in Quantum Field Theory

Author

Ward, B. F. L., Jadach, S., Placzek, W., Skrzypek, M., Was, Z. A., and Yost, S. A.

Subjects

High Energy Physics - Phenomenology

Abstract

There is a continuing effort to support and prepare the precision physics programs for the present and planned future colliders such as HL-LHC, FCC, CLIC, CEPC, and CPPC. We discuss new results from IR-improved amplitude-based resummation in quantum field theory relevant to such support and preparation with some emphasis on the interplay between soft and collinear resummation algebras., Comment: 9 pages, 5 figures, presented by BFLW at RADCOR2023, Crieff, Scotland, UK

Published

2023

19. Collinearly Enhanced Realizations of the YFS MC Approach to Precision Resummation Theory

Author

Jadach, S., Ward, B. F. L., and Was, Z. A.

Subjects

High Energy Physics - Phenomenology

Abstract

We extend the YFS IR resummation theory to include all of the attendant collinear contributions which exponentiate. This improves the original YFS formulation in which only a part of these contributions was exponentiated. We show that the new resummed contributions agree with known results from the collinear factorization approach and we argue that they improve the attendant precision tag for a given level of exactness in the respective YFS hard radiation residuals., Comment: 11 pages, 2 figures, improved text, references; typos corrected. arXiv admin note: text overlap with arXiv:2203.12557

Published

2023

20. Bright Extragalactic ALMA Redshift Survey (BEARS) III: Detailed study of emission lines from 71 Herschel targets

Author

Hagimoto, M., Bakx, T. J. L. C., Serjeant, S., Bendo, G. J., Urquhart, S. A., Eales, S., Harrington, K. C., Tamura, Y., Umehata, H., Berta, S., Cooray, A. R., Cox, P., De Zotti, G., Lehnert, M. D., Riechers, D. A., Scott, D., Temi, P., van der Werf, P. P., Yang, C., Amvrosiadis, A., Andreani, P. M., Baker, A. J., Beelen, A., Borsato, E., Buat, V., Butler, K. M., Dannerbauer, H., Dunne, L., Dye, S., Enia, A. F. M., Fan, L., Gavazzi, R., Gonzalez-Nuevo, J., Harris, A. I., Herrera, C. N., Hughes, D. H., Ismail, D., Ivison, R. J., Jones, B., Kohno, K., Krips, M., Lagache, G., Marchetti, L., Massardi, M., Messias, H., Negrello, M., Neri, R., Omont, A., Perez-Fournon, I., Sedgwick, C., Smith, M. W. L., Stanley, F., Verma, A., Vlahakis, C., Ward, B., Weiner, C., Weiss, A., and Young, A. J.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We analyse the molecular and atomic emission lines of 71 bright Herschel-selected galaxies between redshifts 1.4 to 4.6 detected by the Atacama Large Millimetre/submillimetre Array. These lines include a total of 156 CO, [C I], and H2O emission lines. For 46 galaxies, we detect two transitions of CO lines, and for these galaxies we find gas properties similar to those of other dusty star-forming galaxy (DSFG) samples. A comparison to photo-dissociation models suggests that most of Herschel-selected galaxies have similar interstellar medium conditions as local infrared-luminous galaxies and high-redshift DSFGs, although with denser gas and more intense far-ultraviolet radiation fields than normal star-forming galaxies. The line luminosities agree with the luminosity scaling relations across five orders of magnitude, although the star-formation and gas surface density distributions (i.e., Schmidt-Kennicutt relation) suggest a different star-formation phase in our galaxies (and other DSFGs) compared to local and low-redshift gas-rich, normal star-forming systems. The gas-to-dust ratios of these galaxies are similar to Milky Way values, with no apparent redshift evolution. Four of 46 sources appear to have CO line ratios in excess of the expected maximum (thermalized) profile, suggesting a rare phase in the evolution of DSFGs. Finally, we create a deep stacked spectrum over a wide rest-frame frequency (220-890 GHz) that reveals faint transitions from HCN and CH, in line with previous stacking experiments., Comment: 30 pages, 17 figures, accepted for publication in Monthly Notices of the Royal Astronomical Society Main Journal. Comments are warmly welcomed

Published

2023

21. Solar wind modeling with the Alfven Wave Solar atmosphere Model driven by HMI-based Near-Real-Time maps by the National Solar Observatory

Author

Sachdeva, Nishtha, Manchester, Ward B, Sokolov, Igor, Huang, Zhenguang, Pevtsov, Alexander, Bertello, Luca, Pevtsov, Alexei A., Toth, Gabor, and van der Holst, Bart

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

We explore model performance for the Alfven Wave Solar atmosphere Model (AWSoM) with near-real-time (NRT) synoptic maps of the photospheric vector magnetic field. These maps, produced by assimilating data from the Helioseismic Magnetic Imager (HMI) onboard the Solar Dynamics Observatory (SDO), use a different method developed at the National Solar Observatory (NSO) to provide a near contemporaneous source of data to drive numerical models. Here, we apply these NSO-HMI-NRT maps to simulate three Carrington rotations (CRs): 2107-2108 (centered on 2011/03/07 20:12 CME event), 2123 (integer CR) and 2218--2219 (centered on 2019/07/2 solar eclipse), which together cover a wide range of activity level for solar cycle 24. We show simulation results, which reproduce both extreme ultraviolet emission (EUV) from the low corona while simultaneously matching in situ observations at 1 au as well as quantify the total unsigned open magnetic flux from these maps.

Published

2022

22. Incorporating Polar Field Data for Improved Solar Flare Prediction

Author

Aktukmak, Mehmet, Sun, Zeyu, Bobra, Monica, Gombosi, Tamas, Manchester, Ward B., Chen, Yang, and Hero, Alfred

Subjects

Astrophysics - Solar and Stellar Astrophysics, Statistics - Machine Learning

Abstract

In this paper, we consider incorporating data associated with the sun's north and south polar field strengths to improve solar flare prediction performance using machine learning models. When used to supplement local data from active regions on the photospheric magnetic field of the sun, the polar field data provides global information to the predictor. While such global features have been previously proposed for predicting the next solar cycle's intensity, in this paper we propose using them to help classify individual solar flares. We conduct experiments using HMI data employing four different machine learning algorithms that can exploit polar field information. Additionally, we propose a novel probabilistic mixture of experts model that can simply and effectively incorporate polar field data and provide on-par prediction performance with state-of-the-art solar flare prediction algorithms such as the Recurrent Neural Network (RNN). Our experimental results indicate the usefulness of the polar field data for solar flare prediction, which can improve Heidke Skill Score (HSS2) by as much as 10.1%.

Published

2022

23. One variable species or multiple cryptic? Mitochondrial phylogeny of Central and North American Chlosyne lacinia (Lepidoptera: Nymphalidae)

Author

Timothy C. BONEBRAKE, Ward B. WATT, Alejandro PEREZ, and Carol L. BOGGS

Subjects

phylogeny, genetics, tropical, cryptic species, melitaeini, chlosyne, el salvador, Zoology, QL1-991

Abstract

Recent efforts to catalogue global biodiversity using genetic techniques have uncovered a number of "cryptic" species within morphologically similar populations that had previously been identified as single species. Chlosyne lacinia (Lepidoptera: Nymphalidae), with a range extending from the Southwest U.S. to South America, is one of the most phenotypically variable and broadly distributed butterfly species in the New World. We sampled populations of C. lacinia in two temperate locations (California and Arizona) and one tropical location (El Salvador) to determine if cryptic species were present at this scale (temperate vs. tropical). We examined mtDNA sequence variation in COI, COII, the intervening tRNA (Leucine-2), 16S, 12S and an additional intervening tRNA (Valine), accounting for approximately 20% of the mitochondrial genome (3479 bp). Among all C. lacinia individuals, sequence divergence did not exceed 0.0084 compared to a 0.06 estimated divergence between C. lacinia and congener C. leanira. We also found subclade structure which did not clearly correspond to geography or subspecific designation. Though the mitochondrial phylogeny suggests a complex evolutionary history and biogeography, we demonstrate that one C. lacinia species is distributed throughout North and Central America spanning a diverse set of temperate and tropical habitats.

Published

2011

24. KKMChh: matching CEEX photonic ISR to a QED-corrected parton shower

Author

Yost, S. A., Jadach, S., Ward, B. F. L., and Wąs, Z.

Subjects

High Energy Physics - Phenomenology

Abstract

KKMChh adapts the CEEX (Coherent Exclusive Exponentiation) formalism of the Monte Carlo Program KKMC for Z boson production and decay to hadron scattering. Amplitude-level soft photon exponentiation of initial and final state radiation, together with initial-final interference, is matched to a perturbative calculation to second order next-to-leading logarithm, and electroweak corrections to the hard process are included via DIZET. The first release of KKMChh included complete initial state radiation calculated with current quark masses. This version assumes idealized pure-QCD PDFs with negligible QED contamination. Traditional PDFs neglect QED evolution but are not necessarily free of QED influence in the data. QED-corrected PDFs provide a firmer starting point for precision QED work. We describe a new procedure for matching KKMChh's initial state radiation to a QED-corrected PDF, and compare this to earlier approaches., Comment: Presented by S. Yost at ICHEP 2022, Bologna Italy, July 6 - 13, 2022; 6 pages with 3 figures. Update adds a hyperlink to one reference. Now matches the published proceedings version exactly

Published

2022

25. Overview of IR-Improvement in Precision LHC/FCC Physics

Author

Yost, S. A., Liu, Y., Shakerin, B., and Ward, B. F. L.

Subjects

High Energy Physics - Phenomenology

Abstract

We present an overview of the use of IR-improvement of unintegrable singularities in the infrared regime via amplitude-based resummation in $\mathrm{QED} \times \mathrm{QCD}$ $\subset$ $\mathrm{SU}(2)_L \times \mathrm{U}_1 \times \mathrm{SU}(3)^c$. We work in the context of precision LHC/FCC physics. While illustrating such IR-improvement in specific examples, we discuss new results and new issues., Comment: Poster presentation at ICHEP2022, Bologna, Italy, July 6 - 13, 2022; 4 pages, 2 figures

Published

2022

26. Overview of theoretical precision of the luminosity at future electron-positron colliders

Author

Ward, B. F. L., Jadach, S., Placzek, W., Skrzypek, M., and Yost, S. A.

Subjects

High Energy Physics - Phenomenology

Abstract

For both the FCC-ee and the ILC, to exploit properly the respective precision physics program, the theoretical precision tag on the respective luminosity will need to be improved from the analogs of the $ 0.054 \% (0.061\%)$ results at LEP at $M_Z$, where the former (latter) LEP result has (does not have) the pairs correction. At the FCC-ee at $M_Z$ one needs improvement to $0.01\%$, for example. We present an overview of the roads one may take to reach the required $0.01\%$ precision tag at the FCC-ee and of what the corresponding precision expectations would be for the FCC-ee$_{350}$, ILC$_{500}$, ILC$_{1000}$, and CLIC$_{3000}$ setups., Comment: 6 pages, 5 tables, talk presented by BFLW at ICHEP2022, Bologna, Italy, 7/7/2022

Published

2022

27. Modeling FETCH Observations of 2005 May 13 CME

Author

Jensen, Elizabeth A., Manchester IV, Ward B., Wexler, David B., Kooi, Jason E., Nieves-Chinchilla, Teresa, Jian, Lan K., Pevtsov, Alexei, and Fung, Shing

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Solar and Stellar Astrophysics

Abstract

This paper evaluates the quality of CME analysis that has been undertaken with the rare Faraday rotation observation of an eruption. Exploring the capability of the FETCH instrument hosted on the MOST mission, a four-satellite Faraday rotation radio sounding instrument deployed between the Earth and the Sun, we discuss the opportunities and challenges to improving the current analysis approaches., Comment: 33 pages, 24 figures

Published

2022

28. Assays to Detect West Nile Virus in Dead Birds

Author

Ward B. Stone, Joseph E. Therrien, Robert Benson, Laura Kramer, Elizabeth B. Kauffman, Millicent Eidson, and Scott Campbell

Subjects

West Nile virus, birds, diagnosis, American Crow, real-time RT-PCR, dispatch, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

Using oral swab samples to detect West Nile virus in dead birds, we compared the Rapid Analyte Measurement Platform (RAMP) assay with VecTest and real-time reverse-transcriptase–polymerase chain reaction. The sensitivities of RAMP and VecTest for testing corvid species were 91.0% and 82.1%, respectively.

Published

2005

29. VecTest as Diagnostic and Surveillance Tool for West Nile Virus in Dead Birds

Author

Ward B. Stone, Joseph C. Okoniewski, Joseph E. Therrien, Laura D. Kramer, Elizabeth B. Kauffman, and Millicent Eidson

Subjects

West Nile virus, birds, diagnosis, false positive reaction, RT-PCR, research, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

The VecTest antigen-capture assay for West Nile virus was performed on oral and tissue swabs from dead birds in New York State from April 2003 through July 2004. Results were compared with those from real-time reverse transcriptase–polymerase chain reaction of kidney or brain. Oral VecTest sensitivity is adequate for surveillance in American Crows (Corvus brachyrhynchos) (87%), Blue Jays (Cyanocitta cristata) (80%), and House Sparrows (Passer domesticus) (76%). Oral VecTest performed well for small samples of American Kestrels (Falco sparverius), Northern Cardinals (Cardinalis cardinalis), Common Grackles (Quiscalus quiscula), and House Finches (Carpodacus mexicanus). Poor sensitivity occurred in most raptors, Mourning Doves (Zenaida macroura), Fish Crows (Corvus ossifragus), and American Robins (Turdus migratorius). Specificity was excellent (98%), except for false-positive results that occurred mostly in Gray Catbirds (Dumatella carolinensis), Green Herons (Butorides virescens), and tests of blood and tissues. Feather pulp and kidney may be useful for VecTest assays in corvids.

Published

2004

30. West Nile Virus Infection in Birds and Mosquitoes, New York State, 2000

Author

Kristen A. Bernard, Joseph G. Maffei, Susan A. Jones, Elizabeth B. Kauffman, Gregory D. Ebel, Alan P. Dupuis, Kiet A. Ngo, David C. Nicholas, Donna M. Young, Pei-Yong Shi, Varuni L. Kulasekera, Millicent Eidson, Dennis J. White, Ward B. Stone, and Laura D. Kramer

Subjects

West Nile virus, Culex pipiens, crow, epizootic, United States, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

West Nile (WN) virus was found throughout New York State in 2000, with the epicenter in New York City and surrounding counties. We tested 3,403 dead birds and 9,954 mosquito pools for WN virus during the transmission season. Sixty-three avian species, representing 30 families and 14 orders, tested positive for WN virus. The highest proportion of dead birds that tested positive for WN virus was in American Crows in the epicenter (67% positive, n=907). Eight mosquito species, representing four genera, were positive for WN virus. The minimum infection rate per 1,000 mosquitoes (MIR) was highest for Culex pipiens in the epicenter: 3.53 for the entire season and 7.49 for the peak week of August 13. Staten Island had the highest MIR (11.42 for Cx. pipiens), which was associated with the highest proportion of dead American Crows that tested positive for WN virus (92%, n=48) and the highest number of human cases (n=10).

Published

2001

31. Multi-photon Monte Carlo event generator KKMCee for lepton and quark pair production in lepton colliders

Author

Jadach, S., Ward, B. F. L., Was, Z., Yost, S. A., and Siodmok, A.

Subjects

High Energy Physics - Phenomenology, Physics - Computational Physics

Abstract

We present the {\tt KKMCee 5.00.2} Monte Carlo event generator for lepton and quark pair production for the high energy electron-positron annihilation process. It is still the most sophisticated event generator for such processes. Its entire source code is re-written in the modern C++ language. It reproduces all features of the older \kkmc\ code in Fortran 77. However, a number of improvements in the Monte Carlo algorithm are also implemented. Most importantly, it is intended to be a starting point for the future improvements, which will be mandatory for the future high precision lepton collider projects. As in the older version, in addition to higher order QED corrections, it includes so-called \order{\alpha^{1.5}} genuine weak corrections using a version of the classic {\tt DIZET} library and polarized $\tau$ decays using {\tt TAUOLA} program. Both {\tt DIZET} and {\tt TAUOLA} external libraries are still in Fortran 77. In addition, a {\tt HEPMC3} interface to other MC programs, like parton showers and detector simulation, replaces the older {\tt HepEvt} interface. The {\tt HEPMC3} interface is also exploited in the implementation of the additional photon final state emissions in $\tau$ decays using an external {\tt PHOTOS} library rewritten in C., Comment: To be submitted to Computer Physics Communications

Published

2022

32. Initial state QED radiation aspects for future $e^+e^-$ colliders

Author

Frixione, S., Laenen, E., Calame, C. M. Carloni, Denner, A., Dittmaier, S., Engel, T., Flower, L., Gellersen, L., Hoeche, S., Jadach, S., Masouminia, M. R., Montagna, G., Nicrosini, O., Piccinini, F., Plätzer, S., Price, A., Reuter, J., Rocco, M., Schönherr, M., Signer, A., Sjöstrand, T., Stagnitto, G., Ulrich, Y., Verheyen, R., Vernazza, L., Vicini, A., Ward, B. F. L., and Zaro, M.

Subjects

High Energy Physics - Phenomenology

Abstract

This white paper concerns theoretical and phenomenological aspects relevant to the physics of future $e^+e^-$ colliders, in particular regarding initial-state QED radiation. The contributions each contain key technical aspects, and are formulated in a pedagogical manner so as to render them accessible also to those who are not directly working on these and immediately-related topics. This should help both experts and non-experts understand the theoretical challenges that we shall face at future $e^+e^-$ colliders. Specifically, this paper contains descriptions of the treatment of initial state radiation from several Monte Carlo collaborations, as well as contributions that explain a number of more theoretical developments with promise of future phenomenological impact., Comment: Contribution to: 2022 Snowmass Summer Study

Published

2022

33. Crow Deaths Caused by West Nile Virus during Winter

Author

Jennifer R. Dawson, Ward B. Stone, Gregory D. Ebel, David S. Young, David S. Galinski, Jason P. Pensabene, Mary A. Franke, Millicent Eidson, and Laura D. Kramer

Subjects

West Nile virus, American Crow, lateral transmission, winter, roost, dispatch, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

In New York, an epizootic of American crow (Corvus brachyrhynchos) deaths from West Nile virus (WNV) infection occurred during winter 2004–2005, a cold season when mosquitoes are not active. Detection of WNV in feces collected at the roost suggests lateral transmission through contact or fecal contamination.

Published

2007

34. Herschel-ATLAS Data Release III: Near-infrared counterparts in the South Galactic Pole field -- Another 100,000 submillimetre galaxies

Author

Ward, B. A., Eales, S. A., Pons, E., Smith, M. W. L., McMahon, R. G., Dunne, L., Ivison, R. J., Maddox, S. J., and Negrello, M.

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

In this paper we present the third data release (DR3) of the Herschel Astrophysical Terahertz Large Area Survey (H-ATLAS). We identify likely near-infrared counterparts to submillimetre sources in the South Galactic Pole (SGP) field using the VISTA VIKING survey. We search for the most probable counterparts within 15 arcsec of each Herschel source using a probability measure based on the ratio between the likelihood the true counterpart is found close to the submillimetre source and the likelihood that an unrelated object is found in the same location. For 110 374 (57.0$\%$) sources we find galaxies on the near-infrared images where the probability that the galaxy is associated to the source is greater than 0.8. We estimate the false identification rate to be 4.8$\%$, with a probability that the source has an associated counterpart on the VIKING images of 0.835$\pm$0.009. We investigate the effects of gravitational lensing and present 41 (0.14 deg$^{-2}$) candidate lensed systems with observed flux densities > 100 mJy at 500 $\mu$m. We include in the data release a probability that each source is gravitationally lensed and discover an additional 5 923 sources below 100 mJy that have a probability greater than 0.94 of being gravitationally lensed. We estimate that $\sim$ 400 - 1 000 sources have multiple true identifications in VIKING based on the similarity of redshift estimates for multiple counterparts close to a Herschel source. The data described in this paper can be found at the H-ATLAS website., Comment: 16 pages, 13 figures, accepted for publication in MNRAS

Published

2022

35. New Developments in KKMChh: Quark-Level Exponentiated Radiative Corrections and Semi-analytical Results

Author

Yost, S. A., Dittrich, M., Jadach, S., Wąs, Z., and Ward, B. F. L.

Subjects

High Energy Physics - Phenomenology

Abstract

We describe a new semi-analytical program, KKhhFoam, which provides a simplified framework for testing the amplitude-level exponentiation scheme (CEEX) of the full KKMChh program in the semi-soft limit. The structure of the KKhhFoam integrand is also helpful for elucidating the structure of CEEX. We also discuss the representation of ISR in KKMChh and compare the ISR added by KKMChh to the effect of switching to a QED-corrected PDF, at the individual quark level, and suggest a new approach to running KKMChh with QED-corrected PDFs., Comment: 11 pages, 11 figures, presented at RADCOR/Loopfest 2021, 15th International Symposium on Radiative Corrections: Applications of Quantum Field Theory to Phenomenology, FSU, Tallahassee, FL, USA, 17-21 May 2021

Published

2021

36. IR-Improved Amplitude-Based Resummation in Quantum Field Theory: New Results and New Issues

Author

Ward, B. F. L., Jadach, S., Placzek, W., Skrzypek, M., Was, Z., and Yost, S. A.

Subjects

High Energy Physics - Phenomenology

Abstract

With the advancement of strategies for the precision physics programs for the HL-LHC, FCC-ee, FCC-hh, ILC, CLIC, CEPC, and CPPC, the need for proper control of the attendant theoretical precision tags is manifest. We discuss the role that amplitude-based resummation may play in this regard with examples from the LHC, the proposed new colliders and quantum gravity., Comment: 11 pages, 3 figures, presented by B.F.L. Ward at Radcor-LoopFest2021, Florida State University, Tallahassee, FL, USA, May 2021; improved references; misprints corrected

Published

2021

37. What Sustained Multi-Disciplinary Research Can Achieve: The Space Weather Modeling Framework

Author

Gombosi, Tamas I., Chen, Yuxi, Glocer, Alex, Huang, Zhenguang, Jia, Xianzhe, Liemohn, Michael W., Manchester, Ward B., Pulkkinen, Tuija, Sachdeva, Nishtha, Shidi, Qusai Al, Sokolov, Igor V., Szente, Judit, Tenishev, Valeriy, Toth, Gabor, van der Holst, Bart, Welling, Daniel T., Zhao, Lulu, and Zou, Shasha

Subjects

Physics - Space Physics, Astrophysics - Earth and Planetary Astrophysics, Physics - Computational Physics, Physics - Plasma Physics

Abstract

MHD-based global space weather models have mostly been developed and maintained at academic institutions. While the "free spirit" approach of academia enables the rapid emergence and testing of new ideas and methods, the lack of long-term stability and support makes this arrangement very challenging. This paper describes a successful example of a university-based group, the Center of Space Environment Modeling (CSEM) at the University of Michigan, that developed and maintained the Space Weather Modeling Framework (SWMF) and its core element, the BATS-R-US extended MHD code. It took a quarter of a century to develop this capability and reach its present level of maturity that makes it suitable for research use by the space physics community through the Community Coordinated Modeling Center (CCMC) as well as operational use by the NOAA Space Weather Prediction Center (SWPC)., Comment: 105 pages, 36 figures, in press

Published

2021

38. Tracking the Source of Solar Type II Bursts through Comparisons of Simulations and Radio Data

Author

Hegedus, Alexander M., Manchester IV, Ward B., and Kasper, Justin C.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

The most intense solar energetic particle events are produced by coronal mass ejections (CMEs) accompanied by intense type II radio bursts below 15 MHz. Understanding where these type II bursts are generated relative to an erupting CME would reveal important details of particle acceleration near the Sun, but the emission cannot be imaged on Earth due to distortion from its ionosphere. Here, a technique is introduced to identify the likely source location of the emission by comparing the observed dynamic spectrum observed from a single spacecraft against synthetic spectra made from hypothesized emitting regions within a magnetohydrodynamic (MHD) numerical simulation of the recreated CME. The radio-loud 2005 May 13 CME was chosen as a test case, with Wind/WAVES radio data used to frame the inverse problem of finding the most likely progression of burst locations. An MHD recreation is used to create synthetic spectra for various hypothesized burst locations. A framework is developed to score these synthetic spectra by their similarity to the type II frequency profile derived from Wind/WAVES data. Simulated areas with 4x enhanced entropy and elevated de Hoffmann Teller velocities are found to produce synthetic spectra similar to spacecraft observations. A geometrical analysis suggests that the eastern edge of the entropy derived shock around (-30, 0) degrees in heliocentric coordinates was emitting in the first hour of the event before ceasing emission, and that the western/southwestern edge of the shock centered around (6, -12) degrees was a dominant area of radio emission for the 2 hours of simulation data out to 20 solar radii., Comment: 29 pages, 17 figures, accepted to the Astrophysical Journal

Published

2021

39. The Theory of Resummed Quantum Gravity: Phenomenological Implications

Author

Ward, B. F. L.

Subjects

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

Abstract

We present an overview of the phenomenological implications of the theory of resummed quantum gravity. We discuss its prediction for the cosmological constant in the context of the Planck scale cosmology of Bonanno and Reuter, its relationship to Weinberg's asymptotic safety idea, and its relationship to Weinberg's soft graviton resummation theorem. We also discuss constraints and consistency checks of the theory., Comment: 6 pages, presented by B.F.L. Ward at ICHEP2020, Prague, CZ, July 29, 2020. arXiv admin note: substantial text overlap with arXiv:1811.09261

Published

2020

40. Overview of the Path to 0.01$\%$ Theoretical Luminosity Precision for the FCCee and Its Possible Synergistic Effects for Other FCC Precision Theory Requirements

Author

Ward, B. F. L., Jadach, S., Placzek, W., Skrzypek, M., and Yost, S. A.

Subjects

High Energy Physics - Phenomenology

Abstract

To exploit properly the precision physics program at the FCC-ee, the theoretical precision tag on the respective luminosity will need to be improved from the 0.054$\%$ (0.061$\%$) results at LEP to 0.01$\%$, where the former (latter) LEP result has (does not have) the pairs correction. We present an overview of the roads one may take to reach the required 0.01$\%$ precision tag at the FCC-ee and we discuss possible synergistic effects of the walk along these roads for other FCC precision theory requirements., Comment: 6 pages, 3 tables, presented by B.F.L. Ward at ICHEP2020, Prague, CZ, July 29, 2020. arXiv admin note: substantial text overlap with arXiv:1902.05912

Published

2020

41. Role of IR-Improvement in LHC/FCC Physics

Author

Ward, B. F. L., Shakerin, B., and Yost, S. A.

Subjects

High Energy Physics - Phenomenology

Abstract

One may use amplitude-based resummation in QED $\otimes$ QCD to achieve IR-improvement of unintegrable singularities in the infrared regime to arbitrary precision in principle. We illustrate such improvement in specific examples in precision LHC/FCC physics., Comment: 5 pages, 3 figures, 1 table, presented by B.F.L. Ward at ICHEP2020, Prague, CZ, July, 28, 2020

Published

2020

42. KKMC-hh for Precision Electroweak Phenomenology at the LHC

Author

Yost, Scott A., Dittrich, Matthew, Jadach, Stanislaw, Ward, B. F. L., and Wąs, Zbigniew

Subjects

High Energy Physics - Phenomenology

Abstract

We describe the program KKMC-hh, which calculates Z boson processes in hadronic collisions using coherent exclusive exponentiation (CEEX) with exact second-order photonic corrections at next-to-leading log and first-order weak vertex corrections, including initial and final state photonic radiation and initial-final interference. We describe current applications to precision forward-backward asymmetry calculations for the measurement of the electroweak mixing angle at the LHC., Comment: 6 pages, 8 figures. Presented by S.A. Yost at ICHEP2020, Prague (virtual conference). Version 2 has minor wording changes

Published

2020

43. Insects of Reproductive Structures

Author

Strong, Ward B., Mangini, Alex C., Candau, Jean-Noel, D. Allison, Jeremy, editor, Paine, Timothy D., editor, Slippers, Bernard, editor, and Wingfield, Michael J., editor

Published

2023

44. Adaptive Global Magnetohydrodynamic Simulations

Author

Gombosi, Tamas I., Chen, Yuxi, Huang, Zhenguang, Manchester, Ward B., Sokolov, Igor, Toth, Gabor, Holst, Bart van der, and Büchner, Jörg, editor

Published

2023

45. IR-improved DGLAP parton shower effects for associated production of a W boson and jets in pp collisions at $\sqrt{s}=$8 and 13 TeV

Author

Shakerin, B. and Ward, B. F. L.

Subjects

High Energy Physics - Phenomenology

Abstract

In a previous paper, hereafter referred to as I, we have analyzed the 7 TeV LHC data on W + jets events from the standpoint of IR-improved DGLAP parton shower effects, using the IR-improved Herwiri1.031 parton shower MC in comparison with the Herwig6.5 parton shower MC in the context of the exact $O(\alpha_s)$ matrix element matched parton shower framework provided by MG5\_aMC@NLO. In the current paper, we extend this analysis to the LHC 8 and 13 TeV data to investigate the energy dependence of the results obtained in I. Specifically, W~+ jet events are generated in the MADGRAPH5\_aMC@NLO framework and showered by HERWIG6.521 and HERWIRI1.031 with $\mathtt{PTRMS}=2.2$ and 0 GeV, respectively. The differential cross sections are reported as functions of jet multiplicity, transverse linear momenta ($P_{T}$), the jet pesudo-rapidity ($\eta$) and the scalar sum of jet transverse momenta ($H_{T}$) for different jet multiplicities 1--3. The dijet cross sections as functions of transverse linear momenta, invariant mass of the dijet and the jet separation are shown as well. Distributions of angular correlations between the jets and the muon are examined as well and the corresponding cross sections are presented. The respective measured cross sections are compared with the exact next-to-leading-order (NLO) matrix element matched parton shower theoretical predictions provided by MADGRAPH5\_aMC@NLO/HERWIRI1.031~($\mathtt{PTRMS}=0)$ and MADGRAPH5\_aMC@NLO/HERWIG6.521~($\mathtt{PTRMS}=2.2~\mathrm{GeV})$ and the phenomenological consequences are discussed with an eye toward their energy dependence., Comment: 42 pages, 38 figures. To appear in IJMPA

Published

2020

46. The Monte Carlo Program KKMC for the Lepton or Quark Pair Production at LEP/SLC Energies -- updates of electroweak calculations

Author

Arbuzov, A., Jadach, S., Wąs, Z., Ward, B. F. L., and Yost, S. A.

Subjects

High Energy Physics - Phenomenology

Abstract

Since the {\tt KKMC} program was published for the first time over 20 years ago, it has gained popularity and was exploited in a broad spectrum of applications. The core part of the program itself did not change much. In contrast, some of the libraries have evolved substantially. The aim of this publication is to archive four versions, alternative to the one published 20 years ago versions of the electroweak libraries (or just parameter initialization versions), which were instrumental for the precision Standard Model calculation from the end of LEP era till now and for the sake of the future applications/comparisons for the future electron-positron colliders, in particular for the FCC-ee related studies. These electroweak libraries are useful for the hadron collider applications as well, for instance for {\tt KKMC-hh} or {\tt TauSpinner} projects.

Published

2020

47. Tuning the Exo-Space Weather Radio for Stellar Coronal Mass Ejections

Author

Alvarado-Gómez, Julián D., Drake, Jeremy J., Fraschetti, Federico, Garraffo, Cecilia, Cohen, Ofer, Vocks, Christian, Poppenhäger, Katja, Moschou, Sofia P., Yadav, Rakesh K., and Manchester IV, Ward B.

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Coronal mass ejections (CMEs) on stars other than the Sun have proven very difficult to detect. One promising pathway lies in the detection of type II radio bursts. Their appearance and distinctive properties are associated with the development of an outward propagating CME-driven shock. However, dedicated radio searches have not been able to identify these transient features in other stars. Large Alfv\'en speeds and the magnetic suppression of CMEs in active stars have been proposed to render stellar eruptions "radio-quiet". Employing 3D magnetohydrodynamic simulations, we study here the distribution of the coronal Alfv\'en speed, focusing on two cases representative of a young Sun-like star and a mid-activity M-dwarf (Proxima Centauri). These results are compared with a standard solar simulation and used to characterize the shock-prone regions in the stellar corona and wind. Furthermore, using a flux-rope eruption model, we drive realistic CME events within our M-dwarf simulation. We consider eruptions with different energies to probe the regimes of weak and partial CME magnetic confinement. While these CMEs are able to generate shocks in the corona, those are pushed much farther out compared to their solar counterparts. This drastically reduces the resulting type II radio burst frequencies down to the ionospheric cutoff, which impedes their detection with ground-based instrumentation., Comment: 13 Pages, 6 Figures, 2 Tables. Accepted for publication in The Astrophysical Journal

Published

2020

48. ISR and IFI in Precision AFB Studies with KKMC-hh

Author

Yost, S., Jadach, S., Ward, B. F. L., and Was, Z.

Subjects

High Energy Physics - Phenomenology

Abstract

KKMC-hh is a hadronic event generator for Z boson production and decays, which includes exponentiated multi-photon radiation and first-order electroweak corrections. We have used KKMC-hh to investigate the role of initial sate radiation (ISR) and initial-final interference (IFI) in precision electroweak analyses at the LHC. We compare the effect of this radiation on angular distributions and forward-backward asymmetry, which are particularly important for the measurement of the weak mixing angle. We discuss the relation of the ISR implementation in KKMC-hh to ISR from parton distribution functions with QED corrections., Comment: Presented at 14th International Symposium on Radiative Corrections (RADCOR2019), 9-13 September 2019, Palais des Papes, Avignon, France. 10 pages, 18 figures. Slightly extended relative to published version

Published

2020

49. IFI and ISR Effects for Z/$\gamma^*$ Drell-Yan Observables using ${\cal KK}$MC-hh

Author

Jadach, S., Ward, B. F. L., Yost, S. A., and Was, Z. A.

Subjects

High Energy Physics - Phenomenology

Abstract

Continuing with our investigations of the expected sizes of multiple photon radiative effects in heavy gauge boson production with decay to charged lepton pairs in the context of the precision physics of the LHC, using \KK{MC}-hh 4.22 we consider IFI and ISR effects for specific Z/$\gamma^*$ Drell-Yan observables measured by the ATLAS and CMS Collaborations. With this version of \KK{MC}-hh, we have coherent exclusive exponentiation (CEEX) electroweak (EW) exact ${\cal O}(\alpha^2 L)$ corrections in a hadronic MC and control over the corresponding EW initial-final interference (IFI) effects as well. Specifically, we illustrate the interplay between cuts of the type used in the measurement of $A_{FB}$ and $A_4$ at the LHC and the sizes of the expected responses of the attendant higher order corrections. We find that there are per cent to per mille level effects in the initial-state radiation, fractional per mille level effects in the IFI and per mille level effects in the over-all ${\cal O}(\alpha^2 L)$ corrections that any treatment of EW corrections at the per mille level should consider. Our results are applicable to current LHC experimental data analyses., Comment: 20 pages, 13 figures, 4 tables; updated figures, more discussion, improved references, typos corrected

Published

2020

50. Role of IR-Improvement in Precision LHC/FCC Physics and in Quantum Gravity

Author

Ward, B. F. L., Jadach, S., Placzek, W., Skrzypek, M., Was, Z. A., and Yost, S. A.

Subjects

High Energy Physics - Phenomenology

Abstract

IR-improvement based on amplitude-level resummation allows one to control unintegrable results in quantum field theory with arbitrary precision in principle. We illustrate such resummation in specific examples in precision LHC and FCC physics and in quantum gravity., Comment: 11 pages, 3 figures, 3 tables, presented by B.F.L. Ward at RADCOR2019, Avignon, FR, 9/12/2019. arXiv admin note: text overlap with arXiv:1811.09509

Published

2020