Your search keyword '"Nicholson, Amy"' showing total 1,145 results

1. Lattice QCD studies of the $\Delta$ baryon resonance and the $K_0^\ast(700)$ and $a_0(980)$ meson resonances: the role of exotic operators in determining the finite-volume spectrum

Author

Bulava, John, Darvish, Danny, Hanlon, Andrew D., Hörz, Ben, Morningstar, Colin, Nicholson, Amy, Romero-López, Fernando, Skinner, Sarah, Vranas, Pavlos, and Walker-Loud, André

Subjects

High Energy Physics - Lattice, Nuclear Theory

Abstract

Studies of the $\Delta$ baryon resonance and the $K_0^\ast(700)$ and $a_0(980)$ meson resonances using $N_f=2+1$ lattice QCD for pion masses near 200 MeV are presented. The $s$-wave scattering lengths for both the $I=1/2$ $N \pi$ and $I=3/2$ $N \pi$ channels and properties of the $\Delta$ resonance are identified from the finite-volume energy levels of the lattice simulation. The importance of a three-quark $\Delta$-operator in the $N\pi$ system and tetraquark operators in the mesonic systems is investigated., Comment: 10 pages, 5 figures, 3 tables

Published

2023

2. The $\Lambda(1405)$ from Lattice QCD: Determining the Finite-volume Spectra

Author

Bulava, John, Cid-Mora, Bárbara, Hanlon, Andrew D., Hörz, Ben, Mohler, Daniel, Morningstar, Colin, Moscoso, Joseph, Nicholson, Amy, Romero-López, Fernando, Skinner, Sarah, and Walker-Loud, André

Subjects

High Energy Physics - Lattice

Abstract

This work presents technical details of determining the finite-volume energy spectra for the scattering amplitude of the coupled-channel $\pi\Sigma - \bar{K}N$ from lattice QCD data. The importance of reliably extracting such spectra lies in the crucial dependence of the hadronic scattering amplitudes analysis on the energy spectrum when using L\"{u}scher's formalism. Results of the methods used are presented and the final finite-volume spectra are shown. The analysis of the scattering amplitude based on these results, exhibits a two-pole structure for the $\Lambda(1405)$, a virtual bound state below the $\pi\Sigma$ threshold and a resonance pole right below the $\bar{K}N$ threshold.

Published

2023

3. Low-lying baryon resonances from lattice QCD

Author

Bulava, John, Cid-Mora, Barbara, Hanlon, Andrew D., Hoerz, Ben, Mohler, Daniel, Morningstar, Colin, Moscoso, Joseph, Nicholson, Amy, Romero-Lopez, Fernando, Skinner, Sarah, and Walker-Loud, Andre

Subjects

High Energy Physics - Lattice

Abstract

Recent results studying the masses and widths of low-lying baryon resonances in lattice QCD are presented. The $S$-wave $N\pi$ scattering lengths for both total isospins $I = 1/2$ and $I = 3/2$ are inferred from the finite-volume spectrum below the inelastic threshold together with the $I = 3/2$ $P$-wave containing the $\Delta(1232)$ resonance. A lattice QCD computation employing a combined basis of three-quark and meson-baryon interpolating operators with definite momentum to determine the coupled channel $\Sigma\pi$-$N\overline{K}$ scattering amplitude in the $\Lambda(1405)$ region is also presented. Our results support the picture of a two-pole structure suggested by theoretical approaches based on $SU(3)$ chiral symmetry and unitarity., Comment: 5 pages, 3 figures, talk presented at the 20th International Conference on Hadron Spectroscopy and Structure (HADRON 2023) in Genova, Italy, June 5th to 9th 2023

Published

2023

4. Measuring Developmental Delays: Comparison of Parent Report and Direct Testing.

Author

Ozonoff, Sally, Gangi, Devon, Corona, Laura, Foster, Tori, Hill, Monique Moore, Honaker, Makayla, Maqbool, Shyeena, Ni, Rachel, Nicholson, Amy, Parikh, Chandni, Stone, Caitlin, Spitler, Anna Kathleen, Swanson, Amy, Vehorn, Alison, Wagner, Liliana, Weitlauf, Amy, and Warren, Zachary

Subjects

Autism, Convergent validity, Developmental delay, Measurement, Education, Psychology and Cognitive Sciences, Developmental & Child Psychology, Health sciences, Psychology

Abstract

PurposeDevelopmental assessment is part of a comprehensive autism evaluation. During in-person evaluations, developmental assessment is completed via direct testing by an examiner. In telehealth evaluations, developmental assessment relies on caregiver-report instruments. This study examined correspondence between caregiver report and direct testing of developmental skills.MethodsParticipants were 93 children, aged 18-42 months, undergoing evaluation for possible autism spectrum disorder (ASD). Caregivers were interviewed with the Developmental Profile, 4th edition (DP-4) via telehealth platform and children were tested in person 2-4 weeks later using the Mullen Scales of Early Learning (MSEL).ResultsCorrelations between the DP-4 and MSEL were high (ranging from 0.50 to 0.82) across standard scores, age equivalents, and functional categories, as well as across individual subtests and overall composite scores.ConclusionThe high convergent validity found in this study suggests that the DP-4 provides a suitable proxy for direct developmental testing using the MSEL in the context of telehealth evaluations for ASD in young children, delivering a good estimate of both developmental functioning and presence of delays.Trial registrationData were obtained from registered clinical trial NCT05047224, date of registration 2021-09-07.

Published

2024

5. Lattice QCD study of $\pi\Sigma-\bar{K}N$ scattering and the $\Lambda(1405)$ resonance

Author

Bulava, John, Cid-Mora, Bárbara, Hanlon, Andrew D., Hörz, Ben, Mohler, Daniel, Morningstar, Colin, Moscoso, Joseph, Nicholson, Amy, Romero-López, Fernando, Skinner, Sarah, and Walker-Loud, André

Subjects

High Energy Physics - Lattice, High Energy Physics - Phenomenology, Nuclear Experiment, Nuclear Theory

Abstract

A lattice QCD computation of the coupled channel $\pi\Sigma-\bar{K}N$ scattering amplitudes in the $\Lambda(1405)$ region is detailed. Results are obtained using a single ensemble of gauge field configurations with $N_{\rm f} = 2+1$ dynamical quark flavors and $m_{\pi} \approx 200$ MeV and $m_K\approx487$ MeV. Hermitian correlation matrices using both single baryon and meson-baryon interpolating operators for a variety of different total momenta and irreducible representations are used. Several parametrizations of the two-channel scattering $K$-matrix are utilized to obtain the scattering amplitudes from the finite-volume spectrum. The amplitudes, continued to the complex energy plane, exhibit a virtual bound state below the $\pi\Sigma$ threshold and a resonance pole just below the $\bar{K}N$ threshold., Comment: 18 pages, 11 figures, 14 tables. Final version accepted for publication in PRD with post-publication corrections

Published

2023

6. Two-pole nature of the $\Lambda(1405)$ from lattice QCD

Author

Bulava, John, Cid-Mora, Bárbara, Hanlon, Andrew D., Hörz, Ben, Mohler, Daniel, Morningstar, Colin, Moscoso, Joseph, Nicholson, Amy, Romero-López, Fernando, Skinner, Sarah, and Walker-Loud, André

Subjects

High Energy Physics - Lattice, High Energy Physics - Phenomenology, Nuclear Experiment, Nuclear Theory

Abstract

This letter presents the first lattice QCD computation of the coupled channel $\pi\Sigma-\bar{K}N$ scattering amplitudes at energies near $1405\,{\rm MeV}$. These amplitudes contain the resonance $\Lambda(1405)$ with strangeness $S=-1$ and isospin, spin, and parity quantum numbers $I(J^P)=0(1/2^-)$. However, whether there is a single resonance or two nearby resonance poles in this region is controversial theoretically and experimentally. Using single-baryon and meson-baryon operators to extract the finite-volume stationary-state energies to obtain the scattering amplitudes at slightly unphysical quark masses corresponding to $m_\pi\approx200$ MeV and $m_K\approx487$ MeV, this study finds the amplitudes exhibit a virtual bound state below the $\pi\Sigma$ threshold in addition to the established resonance pole just below the $\bar{K}N$ threshold. Several parametrizations of the two-channel $K$-matrix are employed to fit the lattice QCD results, all of which support the two-pole picture suggested by $SU(3)$ chiral symmetry and unitarity., Comment: 7 pages, 4 figures, and 1 table. Includes various corrections made during the last stages before publication

Published

2023

7. A Randomized Trial of the Accuracy of Novel Telehealth Instruments for the Assessment of Autism in Toddlers

Author

Corona, Laura L., Wagner, Liliana, Hooper, Madison, Weitlauf, Amy, Foster, Tori E., Hine, Jeffrey, Miceli, Alexandra, Nicholson, Amy, Stone, Caitlin, Vehorn, Alison, and Warren, Zachary

Published

2024

8. Report of the Snowmass 2021 Topical Group on Lattice Gauge Theory

Author

Davoudi, Zohreh, Neil, Ethan T., Bauer, Christian W., Bhattacharya, Tanmoy, Blum, Thomas, Boyle, Peter, Brower, Richard C., Catterall, Simon, Christ, Norman H., Cirigliano, Vincenzo, Colangelo, Gilberto, DeTar, Carleton, Detmold, William, Edwards, Robert G., El-Khadra, Aida X., Gottlieb, Steven, Gupta, Rajan, Hackett, Daniel C., Hasenfratz, Anna, Izubuchi, Taku, Jay, William I., Jin, Luchang, Kelly, Christopher, Kronfeld, Andreas S., Lehner, Christoph, Lin, Huey-Wen, Lin, Meifeng, Lytle, Andrew T., Meinel, Stefan, Meurice, Yannick, Mukherjee, Swagato, Nicholson, Amy, Prelovsek, Sasa, Savage, Martin J., Shanahan, Phiala E., Van De Water, Ruth S., Wagman, Michael L., and Witzel, Oliver

Subjects

High Energy Physics - Lattice, High Energy Physics - Phenomenology, High Energy Physics - Theory, Nuclear Theory

Abstract

Lattice gauge theory continues to be a powerful theoretical and computational approach to simulating strongly interacting quantum field theories, whose applications permeate almost all disciplines of modern-day research in High-Energy Physics. Whether it is to enable precision quark- and lepton-flavor physics, to uncover signals of new physics in nucleons and nuclei, to elucidate hadron structure and spectrum, to serve as a numerical laboratory to reach beyond the Standard Model, or to invent and improve state-of-the-art computational paradigms, the lattice-gauge-theory program is in a prime position to impact the course of developments and enhance discovery potential of a vibrant experimental program in High-Energy Physics over the coming decade. This projection is based on abundant successful results that have emerged using lattice gauge theory over the years: on continued improvement in theoretical frameworks and algorithmic suits; on the forthcoming transition into the exascale era of high-performance computing; and on a skillful, dedicated, and organized community of lattice gauge theorists in the U.S. and worldwide. The prospects of this effort in pushing the frontiers of research in High-Energy Physics have recently been studied within the U.S. decadal Particle Physics Planning Exercise (Snowmass 2021), and the conclusions are summarized in this Topical Report., Comment: 57 pages, 1 figure. Submitted to the Proceedings of the US Community Study on the Future of Particle Physics (Snowmass 2021). Topical Group Report for TF05 - Lattice Gauge Theory

Published

2022

9. Elastic nucleon-pion scattering at $m_{\pi} = 200~{\rm MeV}$ from lattice QCD

Author

Bulava, John, Hanlon, Andrew D., Hörz, Ben, Morningstar, Colin, Nicholson, Amy, Romero-López, Fernando, Skinner, Sarah, Vranas, Pavlos, and Walker-Loud, André

Subjects

High Energy Physics - Lattice

Abstract

Elastic nucleon-pion scattering amplitudes are computed using lattice QCD on a single ensemble of gauge field configurations with $N_{\rm f} = 2+1$ dynamical quark flavors and $m_{\pi} = 200~{\rm MeV}$. The $s$-wave scattering lengths with both total isospins $I=1/2$ and $I=3/2$ are inferred from the finite-volume spectrum below the inelastic threshold together with the $I=3/2$ $p$-wave containing the $\Delta(1232)$ resonance. The amplitudes are well-described by the effective range expansion with parameters constrained by fits to the finite-volume energy levels enabling a determination of the $I=3/2$ scattering length with statistical errors below $5\%$, while the $I = 1/2$ is somewhat less precise. Systematic errors due to excited states and the influence of higher partial waves are controlled, providing a pathway for future computations down to the physical light quark masses with multiple lattice spacings and physical volumes., Comment: 33 pages, 16 figures; version accepted for publication

Published

2022

10. Return of genetic research results in 21,532 individuals with autism

Author

Aarrestad, Alexandria, Abbeduto, Leonard, Aberbach, Gabriella, Aberle, Shelley, Adegbite, Adediwura, Adeniji, Debbie, Aguilar, Maria, Ahlers, Kaitlyn, Albright, Charles, Alessandri, Michael, Algaze, Zach, Alkazi, Jasem, Amador, Raquel, Amaral, David, Amon, Logan, Amundsen, Leonor, Andrus, Alicia, Anglo, Claudine, Annett, Robert, Arar, Adam, Arnold, Jonathan, Arriaga, Ivette, Arzate, Eduardo, Ashley, Raven, Aslamy, Leilemah, Baalman, Kelli, Baer, Melissa, Bahi, Ethan, Bailey, Joshua, Baldlock, Zachary, Banks, Grabrielle, Baraghoshi, Gabriele, Bardett, Nicole, Barrett, Mallory, Bartholomew, Yan, Bates, Heidi, Beard, Katie, Becerra, Juana, Beckwith, Malia, Beechan, Paige, Beeson, Landon, Beeson, Josh, Bell, Brandi, Belli, Monica, Bentley, Dawn, Berger, Natalie, Berman, Anna, Bernier, Raphael, Berry-Kravis, Elizabeth, Berwanger, Mary, Birdwell, Shelby, Blank, Elizabeth, Bond, Rebecca, Booker, Stephanie, Bordofsky, Aniela, Bower, Erin, Bowers, Lukas, Bradley, Catherine, Brayer, Heather, Brewster, Stephanie, Brown, Hallie, Brown, Alison, Brown, Melissa, Buck, Catherine, Buescher, Cate, Bullon, Kayleigh, Buraima, Joy, Butter, Eric, Caamano, Amalia, Cacciato, Nicole, CaI, Wenteng, Calderon, Norma, Callahan, Kristen, Camba, Alexies, Campo-Soria, Claudia, Caprara, Giuliana, Carbone, Paul, Carpenter, Laura, Carpenter, Sarah, Casseus, Myriam, Casten, Lucas, Catherine, Sullivan, Chappo, Ashley, Chavez, Kimberly, Cheathem-Johnson, Randi, Chen, Tia, Chintalapalli, Sharmista, Cho, Daniel, Choi, Y.B., Clark, Nia, Clark, Renee, Coffman, Marika, Coleman, Laura, Coleman, Kendra, Collins, Alister, Columbi, Costanza, Comitre, Joaquin, Constant, Stephanie, Contra, Arin, Conyers, Sarah, Cooper, Lindsey, Cooper, Cameron, Coppola, Leigh, Corlett, Allison, Corrales, Lady, Correa, Dahriana, Cottrell, Hannah, Coughlin, Michelle, Courchesne, Eric, Coury, Dan, Crocetti, Deana, Croson, Carrie, Crowell, Judith, Cubells, Joseph, Cunningham, Sean, Currin, Mary, Cutri, Michele, D'Ambrosi, Sophia, David, Giancarla, Davis, Ayana, Davis, Sabrina, Decius, Nickelle, Delaporte, Jennifer, DeMarco, Lindsey, Dennis, Brandy, Deronda, Alyssa, Dhawan, Esha, Dichter, Gabriel, Doan, Ryan, Dominick, Kelli, Ortega, Leonardo Dominquez, Doyle, Erin, Drayton, Andrea, DuBois, Megan, Dudley, Johnny, Duhon, Gabrielle, Duncan, Grabrielle, Duncan, Amie, Dunlevy, Megan, Dyer, Meaghan, Earl, Rachel, Edmonson, Catherine, Eldred, Sara, Elliott, Nelita, Emery, Brooke, Enright, Barbara, Erb, Sarah, Erickson, Craig, Esler, Amy, Estevez, Liza, Fanta, Anne, Fassler, Carrie, Fatemi, Ali, Fazal, Faris, Featherston, Marilyn, Ferguson, Jonathan, Fish, Angela, Fitzgerald, Kate, Flores, Kathleen, Fombonne, Eric, Foster, Margaret, Fowler, Tiffany, Fox, Emma, Fox, Emily, Francis, Sunday, Frayne, Margot, Froman, Sierra, Fuller, Laura, Galbraith, Virginia, Gallimore, Dakota, Gambrell, Ariana, Gazestani, Vahid, Geisheker, Madeleine R., Gerdts, Jennifer, Geschwind, Daniel, Ghaziuddin, Mohammad, Ghina, Haidar, Given, Erin, Goetz, Mykayla, Gong, Jared, Gonring, Kelsey, Gonzalez, Natalia, Gonzalez, Antonio, Goodwill, Ellie, Gordon, Rachel, Graham, Carter, Gray, Catherine, Grimes, Ellen, Griswold, Anthony, Gu, Pan, Guilfoyle, Janna, Gulsrud, Amanda, Gunderson, Jaclyn, Gunter, Chris, Gupta, Sanya, Gupta, Abha, Gutierrez, Anibal, Gwynette, Frampton, Haidar, Ghina, Hale, Melissa, Haley, Monica, Hall, Lauren K., Hamer, Kira, Hamilton, Piper, Hanna, Nathan, Hardan, Antonio, Harkins, Christina, Harrell, Eldric, Harris, Jill, Harris, Nina, Hayes, Caitlin, Hayse, Braden, Heckers, Teryn, Heerwagen, Kathryn, Hennelly, Daniela, Herbert, Lynette, Hermle, Luke, Hernandez, Briana, Herrera, Clara, Hess, Amy, Heyman, Michelle, Higgins, Lorrin, Phillips, Brittani Hilscher, Hirst, Kathy, Ho, Theodore, Hoffman, Emily, Hojlo, Margaret, Honaker, Makayla, Hong, Michael, Hooks, Gregory, Horner, Susannah, Horton, Danielle, Hounchell, Melanie, Howes, Dain, Huang-Storm, Lark, Hunter, Samantha, Hutter, Hanna, Hyde, Emily, Ibanez, Teresa, Ingram, Kelly, Istephanous, Dalia, Jacob, Suma, Jarratt, Andrea, Jelinek, Anna, Johnson, Mary, Jones, Mya, Jones, Garland, Jones, Mark, Jorgenson, Alissa, Judge, Jessyca, Kalb, Luther, Kalmus, Taylor, Kang, Sungeun, Kangas, Elizabeth, Kanne, Stephen, Kaplan, Hannah, Khan, Sara, Kim, Sophy, Kim, Annes, Kitaygordsky, Alex, Klaiman, Cheryl, Klever, Adam, Koene, Hope, Koomar, Tanner, Koza, Melinda, Kramer, Sydney, Krushena, Meghan, Kurtz-Nelson, Eva, Lamarche, Elena, Lampert, Erica, Lamy, Martine, Landa, Rebecca, Lebron-Cruz, Alexa, Lechniak, Holly, Lee, Soo, Leight, Bruce, Lerner, Matthew, Lesher, Laurie, Lewis, Courtney, Li, Hai, Li, Deana, Libove, Robin, Lillie, Natasha, Limon, Danica, Limpoco, Desi, Lin, Melody, Littlefield, Sandy, Lobisi, Brandon, Locarno, Laura, Long, Nancy, Long, Bailey, Long, Kennadie, Lopez, Marilyn, Lovering, Taylor, Lozano, Ivana, Lucio, Daniella, Luo, Addie, Luu, My-Linh, Lyon, Audrey, Ma, Julia, Madi, Natalie, Malloch, Lacy, Mankaryous, Reanna, Manning, Patricia, Mantey, Alvin, Marini, Richard, Marsden, Alexandra, Marwali, Clarissa, Marzano, Gabriela, Mason, Andrew, Mastel, Sarah, Mathai, Sheena, Matthews, Emily, Matusoff, Emma, Maxim, Clara, McCarthy, Caitlin, McClellen, Lynn, Mccoy, Nicole, McCullough, Kaylen, McDonald, Brooke, McGalliard, Julie, McIntyre, Anne-Marie, McKenna, Brooke, McKenzie, Alexander, McTaggart, Megan, Meinen, Hannah, Melnyk, Sophia, Miceli, Alexandra, Michaels, Sarah, Michaelson, Jacob, Milan, Estefania, Miller, Melissa, Milliken, Anna, Minton, Kyla, Mitchell, Terry, Gunn, Amanda Moffitt, Mohiuddin, Sarah, Money, Gina, Montezuma, Jessie, Mooney, Lindsey, Moore, Margo, Morales-Lara, Amy, Morgan, Kelly, Morotti, Hadley, Morrier, Michael, Munoz, Maria, Lavanderos, Ambar Munoz, Murali, Shwetha, Murillo, Karla, Murray, Kailey, Myhre, Erin, Neely, Jason, Neuhaus, Emily, Newman, Olivia, Nguyen, Richard, Nguyen, Victoria, Nichols, Evelyn, Nicholson, Amy, Niederhauser, Melanie, Norris, Megan, Norton, Shai, Nowell, Kerri, O’Brien, Kaela, O’Meara, Mitchell, O’Neil, Molly, O'Roak, Brian, Ocampo, Edith, Ochoa-Lubinoff, Cesar, Oft, Anna, Orobio, Jessica, Ortiz, Crissy, Ousley, Opal, Oyeyemi, Motunrayo, Pacheco, Lillian, Palacios, Valeria, Palmer, Samiza, Palmeri, Isabella, Pama, Katrina, Pandey, Juhi, Paolicelli, Anna Marie, Parker, Jaylaan, Patterson, Morgan, Pawlowski, Katherine, Pedapati, Ernest, Pepper, Michah, Perrin, Jeremy, Peura, Christine, Phillips, Diamond, Pierce, Karen, Piven, Joseph, Plate, Juhi, Polanco, Jose, Pott-Schmidt, Natalie, Pramparo, Tiziano, Pratt, Taleen, Prock, Lisa, White, Stormi Pulver, Qi, Hongjian, Qiu, Shanping, Queen, Eva, Questel, Marcia, Quinones, Ashley, Rambeck, Desiree, Randall, Shelley, Ranganathan, Vaikunt, Raymond, Laurie, Rayos, Madelyn, Real, Kelly, Rhea, Anna, Rice, Catherine, Richardson, Harper, Riffle, Stacy, Robertson, Tracy, Roby, Erin, Rocha, Ana, Roche, Casey, Rodriguez, Nicki, Rodriguez, Bianca, Roeder, Katherine, Rojas, Daniela, Rosewater, Jacob, Rosselott, Hilary, Runyan, Payton, Russo, Nicole, Rutter, Tara, Ruzzo, Elizabeth, Sahin, Mustafa, Salem, Fatima, Sanchez, Rebecca, Sanders, Muave, Sanderson, Tayler, Sandhu, Sophie, Sanford, Katelyn, Santangelo, Susan, Santulli, Madeline, Sarver, Dustin, Savage, Madeline, Scherr, Jessica, Schneider, Hoa, Schools, Hayley, Schoonover, Gregory, Schultz, Robert, Sebolt, Cheyanne, Shaffer, Rebecca, Shameen, Sana, Sherard, Curry, Shikov, Roman, Shillington, Amelle, Shir, Mojeeb, Shocklee, Amanda, Shrier, Clara, Shulman, Lisa, Siegel, Matt, Simon, Andrea, Simon, Laura, Singh, Arushi, Singh, Vini, Smalley, Devin, Smith, Kaitlin, Smith, Chris, Smith, Ashlyn, Soorya, Latha, Soscia, Julia, Soucy, Aubrie, Stchur, Laura, Steele, Morgan, Srishyla, Diksha, Stamps, Danielle, Sussman, Nicole, Swanson, Amy, Sweeney, Megan, Sziklay, Anthony, Tafolla, Maira, Taiba, Jabeen, Takahashi, Nicole, Terroso, Sydney, Strathearn, Camilla, Thomas, Taylor, Thompson, Samantha, Touchette, Ellyn, Townsend, Laina, Trog, Madison, Tsai, Katherine, Tseng, Angela, Tshering, Paullani, Tso, Ivy, Valicenti-Mcdermott, Maria, VanMetre, Bonnie, VanWade, Candace, Turecki, Samuel, Vargo, Kerrigan, Vattuone, Cristiana, Veenstra-Vanderweele, Jeremy, Vehorn, Alison, Benitez Velazquez, Alan Jesus, Verdi, Mary, Villalobos, Michele, Vrittamani, Lakshmi, Wainer, Allison, Wallace, Jermel, Walston, Corrie, Wang, Jiayaho, Ward, Audrey, Warren, Zachary, Washington, Katherine, Westerkamp, Grace, White, Sabrina, Wink, Logan, Winoto, Fiona, Winters, Sarah, Wodka, Ericka, Xavier, Samantha, Xu, Sidi, Yang, Yi, Yang, WhaJames, Yang, Amy, Yinger, Meredith, Yu, Timothy, Zaro, Christopher, Zha, Cindy, Zhang, Haicang, Zhao, Haoquan, Zick, Allyson, Salmon, Lauren Ziegelmayer, Wright, Jessica R., Astrovskaya, Irina, Barns, Sarah D., Goler, Alexandra, Zhou, Xueya, Shu, Chang, Snyder, LeeAnne Green, Han, Bing, Shen, Yufeng, Volfovsky, Natalia, Hall, Jacob B., Feliciano, Pamela, and Chung, Wendy K.

Published

2024

11. Neutrinoless Double-Beta Decay: A Roadmap for Matching Theory to Experiment

Author

Cirigliano, Vincenzo, Davoudi, Zohreh, Dekens, Wouter, de Vries, Jordy, Engel, Jonathan, Feng, Xu, Gehrlein, Julia, Graesser, Michael L., Gráf, Lukáš, Hergert, Heiko, Jin, Luchang, Mereghetti, Emanuele, Nicholson, Amy, Pastore, Saori, Ramsey-Musolf, Michael J., Ruiz, Richard, Spinrath, Martin, van Kolck, Ubirajara, and Walker-Loud, André

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment, High Energy Physics - Lattice, Nuclear Experiment, Nuclear Theory

Abstract

The observation of neutrino oscillations and hence non-zero neutrino masses provided a milestone in the search for physics beyond the Standard Model. But even though we now know that neutrinos are massive, the nature of neutrino masses, i.e., whether they are Dirac or Majorana, remains an open question. A smoking-gun signature of Majorana neutrinos is the observation of neutrinoless double-beta decay, a process that violates the lepton-number conservation of the Standard Model. This white paper focuses on the theoretical aspects of the neutrinoless double-beta decay program and lays out a roadmap for future developments. The roadmap is a multi-scale path starting from high-energy models of neutrinoless double-beta decay all the way to the low-energy nuclear many-body problem that needs to be solved to supplement measurements of the decay rate. The path goes through a systematic effective-field-theory description of the underlying processes at various scales and needs to be supplemented by lattice quantum chromodynamics input. The white paper also discusses the interplay between neutrinoless double-beta decay, experiments at the Large Hadron Collider and results from astrophysics and cosmology in probing simplified models of lepton-number violation at the TeV scale, and the generation of the matter-antimatter asymmetry via leptogenesis. This white paper is prepared for the topical groups TF11 (Theory of Neutrino Physics), TF05 (Lattice Gauge Theory), RF04 (Baryon and Lepton Number Violating Processes), NF03 (Beyond the Standard Model) and NF05 (Neutrino Properties) within the Theory Frontier, Rare Processes and Precision Frontier, and Neutrino Physics Frontier of the U.S. Community Study on the Future of Particle Physics (Snowmass 2021)., Comment: Contribution to Snowmass 2021

Published

2022

12. Nuclear Forces for Precision Nuclear Physics -- a collection of perspectives

Author

Tews, Ingo, Davoudi, Zohreh, Ekström, Andreas, Holt, Jason D., Becker, Kevin, Briceño, Raúl, Dean, David J., Detmold, William, Drischler, Christian, Duguet, Thomas, Epelbaum, Evgeny, Gasparyan, Ashot, Gegelia, Jambul, Green, Jeremy R., Grießhammer, Harald W., Hanlon, Andrew D., Heinz, Matthias, Hergert, Heiko, Hoferichter, Martin, Illa, Marc, Kekejian, David, Kievsky, Alejandro, König, Sebastian, Krebs, Hermann, Launey, Kristina D., Lee, Dean, Navrátil, Petr, Nicholson, Amy, Parreño, Assumpta, Phillips, Daniel R., Płoszajczak, Marek, Ren, Xiu-Lei, Richardson, Thomas R., Robin, Caroline, Sargsyan, Grigor H., Savage, Martin, Schindler, Matthias R., Shanahan, Phiala E., Springer, Roxanne P., Tichai, Alexander, van Kolck, Ubirajara, Wagman, Michael L., Walker-Loud, André, Yang, Chieh-Jen, and Zhang, Xilin

Subjects

Nuclear Theory, High Energy Physics - Lattice, High Energy Physics - Phenomenology

Abstract

This is a collection of perspective pieces contributed by the participants of the Institute of Nuclear Theory's Program on Nuclear Physics for Precision Nuclear Physics which was held virtually from April 19 to May 7, 2021. The collection represents the reflections of a vibrant and engaged community of researchers on the status of theoretical research in low-energy nuclear physics, the challenges ahead, and new ideas and strategies to make progress in nuclear structure and reaction physics, effective field theory, lattice QCD, quantum information, and quantum computing. The contributed pieces solely reflect the perspectives of the respective authors and do not represent the viewpoints of the Institute for Nuclear theory or the organizers of the program., Comment: Perspective pieces of the virtual INT program 21-1b "Nuclear Forces for Precision Nuclear Physics", 107 pages

Published

2022

13. The hyperon spectrum from lattice QCD

Author

Miller, Nolan, Bradley, Grant, Clark, M. A., Hörz, Ben, Howarth, Dean, Lazarow, Malcolm, Monge-Camacho, Henry, Nicholson, Amy, Rinaldi, Enrico, Vranas, Pavlos, and Walker-Loud, André

Subjects

High Energy Physics - Lattice

Abstract

Hyperon decays present a promising alternative for extracting $\vert V_{us} \vert$ from lattice QCD combined with experimental measurements. Currently $\vert V_{us} \vert$ is determined from the kaon decay widths and a lattice calculation of the associated form factor. In this proceeding, I will present preliminary work on a lattice determination of the hyperon mass spectrum. I will additionally summarize future goals in which we will calculate the hyperon transition matrix elements, which will provide an alternative means for accessing $\vert V_{us} \vert$. This work is based on a particular formulation of SU(2) chiral perturbation theory for hyperons; determining the extent to which this effective field theory converges is instrumental in understanding the limits of its predictive power, especially since some hyperonic observables are difficult to calculate near the physical pion mass (e.g., hyperon-to-nucleon form factors), and thus the use of heavier than physical pion masses is likely to yield more precise results when combined with extrapolations to the physical point.}, Comment: 8 pages, 3 figures, presented at the 38th International Symposium on Lattice Field Theory (LATTICE2021)

Published

2022

14. Toward a resolution of the NN controversy

Author

Nicholson, Amy, Berkowitz, Evan, Bulava, John, Chang, Chia Cheng, Clark, M. A., Hanlon, Andrew D., Horz, Ben, Howarth, Dean, Korber, Christopher, Lee, Wayne Tai, Meyer, Aaron S., Monge-Camacho, Henry, Morningstar, Colin, Rinaldi, Enrico, Vranasc, Pavlos, and Walker-Loud, Andre

Subjects

High Energy Physics - Lattice, Nuclear Theory

Abstract

Lattice QCD calculations of two-nucleon interactions have been underway for about a decade, but still haven't reached the pion mass regime necessary for matching onto effective field theories and extrapolating to the physical point. Furthermore, results from different methods, including the use of the Luscher formalism with different types of operators, as well as the HALQCD potential method, do not agree even qualitatively at very heavy pion mass. We investigate the role that different operators employed in the literature may play on the extraction of spectra for use within the Luscher method. We first explore expectations from Effective Field Theory solved within a finite volume, for which the exact spectrum may be computed given different physical scenarios. We then present preliminary lattice QCD results for two-nucleon spectra calculated using different operators on a common lattice ensemble., Comment: 11 pages, 7 figures, proceeding for The 38th International Symposium on Lattice Field Theory, LATTICE2021, 26th-30th July, 2021, Zoom/Gather@Massachusetts Institute of Technology

Published

2021

15. Progress on Meson-Baryon Scattering

Author

Morningstar, Colin, Bulava, John, Hanlon, Andrew D., Hörz, Ben, Mohler, Daniel, Nicholson, Amy, Skinner, Sarah, and Walker-Loud, André

Subjects

High Energy Physics - Lattice

Abstract

Progress in computing various meson-baryon scattering amplitudes is presented on a single ensemble from the Coordinated Lattice Simulations (CLS) consortium with $m_\pi=200$ MeV and $N_f=2+1$ dynamical fermions. The finite-volume L\"uscher approach is employed to determine the lowest few partial waves from ground- and excited-state energies computed from correlation matrices rotated in a single pivot using a generalized eigenvector solution. This analysis requires evaluating matrices of correlation functions between single- and two-hadron interpolating operators which are projected onto definite spatial momenta and finite-volume irreducible representations. The stochastic LapH method is used to estimate all needed quark propagators. Preliminary results are presented for $I=\frac{1}{2}, \frac{3}{2}$ $N\pi$ amplitudes including the $\Delta(1232)$ resonance and the $I=0$ $S$-wave amplitude with unit strangeness relevant for the $\Lambda(1405)$., Comment: The 38th International Symposium on Lattice Field Theory, LATTICE2021 26th-30th July, 2021 Zoom/Gather@Massachusetts Institute of Technology 9 pages, 4 figures

Published

2021

16. Nucleon Axial Form Factor from Domain Wall on HISQ

Author

Meyer, Aaron S., Berkowitz, Evan, Bouchard, Chris, Chang, Chia Cheng, Clark, M. A., Hörz, Ben, Howarth, Dean, Körber, Christopher, Monge-Camacho, Henry, Nicholson, Amy, Rinaldi, Enrico, Vranas, Pavlos, and Walker-Loud, André

Subjects

High Energy Physics - Lattice

Abstract

The Deep Underground Neutrino Experiment (DUNE) is an upcoming neutrino oscillation experiment that is poised to answer key questions about the nature of neutrinos. Lattice QCD has the ability to make significant impact upon DUNE, beginning with computations of nucleon-neutrino interactions with weak currents. Nucleon amplitudes involving the axial form factor are part of the primary signal measurement process for DUNE, and precise calculations from LQCD can significantly reduce the uncertainty for inputs into Monte Carlo generators. Recent calculations of the nucleon axial charge have demonstrated that sub-percent precision is possible on this vital quantity. In these proceedings, we discuss preliminary results for the CalLat collaboration's calculation of the axial form factor of the nucleon. These computations are performed with M\"obius domain wall valence quarks on HISQ sea quark ensembles generated by the MILC and CalLat collaborations. The results use a variety of ensembles including several at physical pion mass., Comment: The 38th International Symposium on Lattice Field Theory, LATTICE2021 26th-30th July, 2021 Zoom/Gather@Massachusetts Institute of Technology 9 pages, 2 figures

Published

2021

17. Detailed analysis of excited-state systematics in a lattice QCD calculation of gA

Author

He, Jinchen, 何晋琛, Brantley, David A, Chang, Chia Cheng, 張家丞, Chernyshev, Ivan, Berkowitz, Evan, Howarth, Dean, Körber, Christopher, Meyer, Aaron S, Monge-Camacho, Henry, Rinaldi, Enrico, Bouchard, Chris, Clark, MA, Gambhir, Arjun Singh, Monahan, Christopher J, Nicholson, Amy, Vranas, Pavlos, and Walker-Loud, André

Subjects

Nuclear and Plasma Physics, Particle and High Energy Physics, Physical Sciences, Genetics, Human Genome, Nuclear and plasma physics

Abstract

Excited state contamination remains one of the most challenging sources of systematic uncertainty to control in lattice QCD calculations of nucleon matrix elements and form factors: early time separations are contaminated by excited states and late times suffer from an exponentially bad signal-to-noise problem. High-statistics calculations at large time separations 1 fm are commonly used to combat these issues. In this work, focusing on gA, we explore the alternative strategy of utilizing a large number of relatively low-statistics calculations at short to medium time separations (0.2-1 fm), combined with a multistate analysis. On an ensemble with a pion mass of approximately 310 MeV and a lattice spacing of approximately 0.09 fm, we find this provides a more robust and economical method of quantifying and controlling the excited state systematic uncertainty. A quantitative separation of various types of excited states enables the identification of the transition matrix elements as the dominant contamination. The excited state contamination of the Feynman-Hellmann correlation function is found to reduce to the 1% level at approximately 1 fm while, for the more standard three-point functions, this does not occur until after 2 fm. Critical to our findings is the use of a global minimization, rather than fixing the spectrum from the two-point functions and using them as input to the three-point analysis. We find that the ground state parameters determined in such a global analysis are stable against variations in the excited state model, the number of excited states, and the truncation of early-time or late-time numerical data.

Published

2022

18. A Longitudinal RCT of P-ESDM with and without Parental Mindfulness Based Stress Reduction: Impact on Child Outcomes

Author

Weitlauf, Amy S., Broderick, Neill, Alacia Stainbrook, J., Slaughter, James C., Taylor, Julie Lounds, Herrington, Catherine G., Nicholson, Amy G., Santulli, Madeline, Dorris, Kristin, Garrett, LaTamara Jackson, Hopton, Michelle, Kinsman, Amy, Morton, Mary, Vogel, Ashley, Dykens, Elisabeth M., Pablo Juárez, A., and Warren, Zachary E.

Abstract

This randomized controlled trial (NCT03889821) examined Mindfulness Based Stress Reduction (MBSR) in conjunction with the Parent-implemented Early Start Denver Model (P-ESDM). A previous report described improved metrics of parental distress (Weitlauf et al. in Pediatrics 145(Supplement 1):S81-S92, 2020). This manuscript examines child outcomes. 63 children with ASD (< 36 months) and their parents received 12 P-ESDM sessions. Half of parents also received MBSR. Longitudinal examination of whole sample means revealed modest improvements in autism severity, cognitive, and adaptive skills. There was not a significant time × group interaction for children whose parents received MBSR. Future work should examine more proximal markers of child or dyadic change to enhance understanding of the impact of providing direct treatment for parents as part of early intervention initiatives.

Published

2022

19. Detailed analysis of excited state systematics in a lattice QCD calculation of $g_A$

Author

He, Jinchen, Brantley, David A., Chang, Chia Cheng, Chernyshev, Ivan, Berkowitz, Evan, Howarth, Dean, Körber, Christopher, Meyer, Aaron S., Monge-Camacho, Henry, Rinaldi, Enrico, Bouchard, Chris, Clark, M. A., Gambhir, Arjun Singh, Monahan, Christopher J., Nicholson, Amy, Vranas, Pavlos, and Walker-Loud, André

Subjects

High Energy Physics - Lattice, High Energy Physics - Phenomenology, Nuclear Theory

Abstract

Excited state contamination remains one of the most challenging sources of systematic uncertainty to control in lattice QCD calculations of nucleon matrix elements and form factors: early time separations are contaminated by excited states and late times suffer from an exponentially bad signal-to-noise problem. High-statistics calculations at large time separations $\gtrsim1$ fm are commonly used to combat these issues. In this work, focusing on $g_A$, we explore the alternative strategy of utilizing a large number of relatively low-statistics calculations at short to medium time separations (0.2--1 fm), combined with a multi-state analysis. On an ensemble with a pion mass of approximately 310 MeV and a lattice spacing of approximately 0.09 fm, we find this provides a more robust and economical method of quantifying and controlling the excited state systematic uncertainty. A quantitative separation of various types of excited states enables the identification of the transition matrix elements as the dominant contamination. The excited state contamination of the Feynman-Hellmann correlation function is found to reduce to the 1% level at approximately 1 fm while for the more standard three-point functions, this does not occur until after 2 fm. Critical to our findings is the use of a global minimization, rather than fixing the spectrum from the two-point functions and using them as input to the three-point analysis. We find that the ground state parameters determined in such a global analysis are stable against variations in the excited state model, the number of excited states, and the truncation of early-time or late-time numerical data., Comment: v2: updates based on referee comments and some community response, consistent with published version; v1: 13 pages plus appendices. The correlation function data and analysis code accompanying this publication can be accessed at this github repository: https://github.com/callat-qcd/project_fh_vs_3pt

Published

2021

20. How Hollywood flipped the May-December romance so older women rule

Author

Nicholson, Amy

Subjects

Motion pictures -- Forecasts and trends, Romance literature -- Forecasts and trends, Romance fiction -- Forecasts and trends, Market trend/market analysis, General interest, News, opinion and commentary

Abstract

Byline: Amy Nicholson If you're catching a movie at the mall this year, be prepared for Nicole Kidman to prove her passion for the cinema, twice over. After you've been [...]

Published

2024

21. Hot Frosty

Author

Nicholson, Amy

Subjects

Hot Frosty (Motion picture) -- Chabert, Lacey -- Ciccoritti, Jerry -- Milligan, Dustin, Motion pictures -- Movie reviews

Abstract

A hunky snowman comes to life in this Netflix holiday rom-com that strikes a certain muscle tone. Here's the pitch for 'Hot Frosty': A widow wraps an enchanted scarf around [...]

Published

2024

22. 'Red One' decks the halls with Dwayne Johnson and a swole Santa

Author

Nicholson, Amy

Subjects

Red One (Motion picture) -- Evans, Chris -- Shipka, Kiernan -- Johnson, Dwayne, Motion pictures -- Movie reviews

Abstract

Byline: Amy Nicholson "Red One" is a sour sugarplum of a Christmas treat, a cheerfully cynical action comedy for kids - especially the ones who asked Santa Claus for ninja [...]

Published

2024

23. ‘Hot Frosty’ Review: The 8 Abs of Christmas

Author

Nicholson, Amy

Subjects

News, opinion and commentary

Abstract

A hunky snowman comes to life in this Netflix holiday rom-com that strikes a certain muscle tone. Here’s the pitch for “Hot Frosty”: A widow wraps an enchanted scarf around [...]

Published

2024

24. The Last Rifleman

Author

Nicholson, Amy

Subjects

The Last Rifleman (Motion picture) -- Brosnan, Pierce -- Loane, Terry -- Prochnow, Jurgen -- O'Neill, Tara Lynne, Motion pictures -- Movie reviews

Abstract

Pierce Brosnan plays a man who sneaks out of his retirement home to attend the 75th anniversary of the D-Day landings in this charming, but corny drama. 'The Last Rifleman' [...]

Published

2024

25. ‘The Last Rifleman’ Review: A World War II Veteran Hits the Road

Author

Nicholson, Amy

Subjects

News, opinion and commentary

Abstract

Pierce Brosnan plays a man who sneaks out of his retirement home to attend the 75th anniversary of the D-Day landings in this charming, but corny drama. “The Last Rifleman” [...]

Published

2024

26. âMemoir of a Snail': A slow beauty in stop-motion

Author

Nicholson, Amy

Subjects

Memoir of a Snail (Motion picture) -- Elliot, Adam -- Weaver, Jacki -- Snook, Sarah -- Smit-McPhee, Kodi -- Bana, Eric -- Cave, Nick, Motion pictures -- Movie reviews, General interest, News, opinion and commentary

Abstract

Byline: Amy Nicholson âMemoir of a Snail,â by the Oscar-winning Australian animator Adam Elliot, is a grubby delight, a stop-motion charmer that feels like falling into a dumpster and discovering [...]

Published

2024

27. The Millenniums Keep Passing, but the View Never Changes

Author

Nicholson, Amy

Subjects

Here (Motion picture) -- Zemeckis, Robert, Motion pictures -- Movie reviews, General interest, News, opinion and commentary

Abstract

Tom Hanks and Robin Wright reunite onscreen for a drama that showcases generations of existence. ''Here'' is an aeon-spanning experimental collage by Robert Zemeckis that plants the camera in one [...]

Published

2024

28. Creepy One-Man Band Extends His Performance

Author

Nicholson, Amy

Subjects

Venom: The Last Dance (Motion picture) -- Hardy, Tom -- Marcel, Kelly -- Williams, Michelle -- Ejiofor, Chiwetel -- Temple, Juno -- Backo, Clark -- Serkis, Andy -- Ifans, Rhys, Theater -- Theater reviews, News, opinion and commentary, General interest

Abstract

Playing both Eddie Brock and the alien parasite who possesses him, Tom Hardy gives another roiling one-man-band of a performance in this third installment of the franchise. With the 2018 [...]

Published

2024

29. Goodrich

Author

Nicholson, Amy

Subjects

Goodrich (Motion picture) -- Kopera, Jacob -- Keaton, Michael -- Blair, Vivien Lyra -- Meyers-Shyer, Hallie, Motion pictures -- Movie reviews, General interest, News, opinion and commentary

Abstract

An art gallery owner (Michael Keaton) gets a shock when his second wife (Laura Benanti) goes to rehab and he has to take care of their twins. ''Goodrich,'' by Hallie [...]

Published

2024

30. Mad About the Boy: The NoE1/2l Coward Story

Author

Nicholson, Amy

Subjects

Mad About the Boy: The Noel Coward Story (Documentary Film) -- Thompson, Barnaby, Motion pictures -- Movie reviews, General interest, News, opinion and commentary

Abstract

A brisk documentary by Barnaby Thompson counters that the tuxedo-wearing playwright hid his insecurities under a platinum-plated veneer. When Ian Fleming asked him to play the villainous Dr. No in [...]

Published

2024

31. Nucleon Axial Form Factor from Domain Wall on HISQ

Author

Meyer, Aaron S, Berkowitz, Evan, Bouchard, Chris, Chang, Chia Cheng, Clark, MA, Hörz, Ben, Howarth, Dean, Körber, Christopher, Monge-Camacho, Henry, Nicholson, Amy, Rinaldi, Enrico, Vranas, Pavlos, and Walker-Loud, André

Subjects

hep-lat

Abstract

The Deep Underground Neutrino Experiment (DUNE) is an upcoming neutrinooscillation experiment that is poised to answer key questions about the natureof neutrinos. Lattice QCD has the ability to make significant impact upon DUNE,beginning with computations of nucleon-neutrino interactions with weakcurrents. Nucleon amplitudes involving the axial form factor are part of theprimary signal measurement process for DUNE, and precise calculations from LQCDcan significantly reduce the uncertainty for inputs into Monte Carlogenerators. Recent calculations of the nucleon axial charge have demonstratedthat sub-percent precision is possible on this vital quantity. In theseproceedings, we discuss preliminary results for the CalLat collaboration'scalculation of the axial form factor of the nucleon. These computations areperformed with M\"obius domain wall valence quarks on HISQ sea quark ensemblesgenerated by the MILC and CalLat collaborations. The results use a variety ofensembles including several at physical pion mass.

Published

2021

32. Scale setting the M\'obius Domain Wall Fermion on gradient-flowed HISQ action using the omega baryon mass and the gradient-flow scales $t_0$ and $w_0$

Author

Miller, Nolan, Carpenter, Logan C, Berkowitz, Evan, Chang, Chia Cheng, Hörz, Ben, Howarth, Dean, Monge-Camacho, Henry, Rinaldi, Enrico, Brantley, David A., Körber, Christopher, Bouchard, Chris, Clark, M. A., Gambhir, Arjun Singh, Monahan, Christopher J., Nicholson, Amy, Vranas, Pavlos, and Walker-Loud, André

Subjects

High Energy Physics - Lattice, High Energy Physics - Phenomenology, Nuclear Theory

Abstract

We report on a sub-percent scale determination using the omega baryon mass and gradient-flow methods. The calculations are performed on 22 ensembles of $N_f=2+1+1$ highly improved, rooted staggered sea-quark configurations generated by the MILC and CalLat Collaborations. The valence quark action used is M\"obius Domain-Wall fermions solved on these configurations after a gradient-flow smearing is applied with a flowtime of $t_{\rm gf}=1$ in lattice units. The ensembles span four lattice spacings in the range $0.06 \lesssim a \lesssim 0.15$ fm, six pion masses in the range $130 \lesssim m_\pi \lesssim 400$ MeV and multiple lattice volumes. On each ensemble, the gradient-flow scales $t_0/a^2$ and $w_0/a$ and the omega baryon mass $a m_\Omega$ are computed. The dimensionless product of these quantities is then extrapolated to the continuum and infinite volume limits and interpolated to the physical light, strange and charm quark mass point in the isospin limit, resulting in the determination of $\sqrt{t_0}=0.1422(14)$ fm and $w_0 = 0.1709(11)$ fm with all sources of statistical and systematic uncertainty accounted for. The dominant uncertainty in this result is the stochastic uncertainty, providing a clear path for a few-per-mille uncertainty, as recently obtained by the Budapest-Marseille-Wuppertal Collaboration., Comment: v3: Published version; v2: Added determination of t_0 as well as w_0; v1: 13 pages plus appendices. The correlation function data, mass results and analysis code accompanying this publication can be found at this github repository: https://github.com/callat-qcd/project_scale_setting_mdwf_hisq

Published

2020

33. Two-nucleon S-wave interactions at the $SU(3)$ flavor-symmetric point with $m_{ud}\simeq m_s^{\rm phys}$: a first lattice QCD calculation with the stochastic Laplacian Heaviside method

Author

Hörz, Ben, Howarth, Dean, Rinaldi, Enrico, Hanlon, Andrew, Chang, Chia Cheng, Körber, Christopher, Berkowitz, Evan, Bulava, John, Clark, M. A., Lee, Wayne Tai, Morningstar, Colin, Nicholson, Amy, Vranas, Pavlos, and Walker-Loud, André

Subjects

High Energy Physics - Lattice, High Energy Physics - Phenomenology, Nuclear Experiment, Nuclear Theory

Abstract

We report on the first application of the stochastic Laplacian Heaviside method for computing multi-particle interactions with lattice QCD to the two-nucleon system. Like the Laplacian Heaviside method, this method allows for the construction of interpolating operators which can be used to construct a positive definite set of two-nucleon correlation functions, unlike nearly all other applications of lattice QCD to two nucleons in the literature. It also allows for a variational analysis in which optimal linear combinations of the interpolating operators are formed that couple predominantly to the eigenstates of the system. Utilizing such methods has become of paramount importance in order to help resolve the discrepancy in the literature on whether two nucleons in either isospin channel form a bound state at pion masses heavier than physical, with the discrepancy persisting even in the $SU(3)$-flavor symmetric point with all quark masses near the physical strange quark mass. This is the first in a series of papers aimed at resolving this discrepancy. In the present work, we employ the stochastic Laplacian Heaviside method without a hexaquark operator in the basis at a lattice spacing of $a\sim0.086$~fm, lattice volume of $L=48a\simeq4.1$~fm and pion mass $m_\pi\simeq714$ MeV. With this setup, the observed spectrum of two-nucleon energy levels strongly disfavors the presence of a bound state in either the deuteron or dineutron channel., Comment: v2: version to be published in Phys. Rev. C.; v1: 13 pages plus figures and appendices

Published

2020

34. $F_K / F_\pi$ from M\'{o}bius domain-wall fermions solved on gradient-flowed HISQ ensembles

Author

Miller, Nolan, Monge-Camacho, Henry, Chang, Chia Cheng, Hörz, Ben, Rinaldi, Enrico, Howarth, Dean, Berkowitz, Evan, Brantley, David A., Gambhir, Arjun Singh, Körber, Christopher, Monahan, Christopher J., Clark, M. A., Joó, Bálint, Kurth, Thorsten, Nicholson, Amy, Orginos, Kostas, Vranas, Pavlos, and Walker-Loud, André

Subjects

High Energy Physics - Lattice, High Energy Physics - Experiment, High Energy Physics - Phenomenology, Nuclear Theory

Abstract

We report the results of a lattice quantum chromodynamics calculation of $F_K/F_\pi$ using M\"{o}bius domain-wall fermions computed on gradient-flowed $N_f=2+1+1$ highly-improved staggered quark (HISQ) ensembles. The calculation is performed with five values of the pion mass ranging from $130 \lesssim m_\pi \lesssim 400$ MeV, four lattice spacings of $a\sim 0.15, 0.12, 0.09$ and $0.06$ fm and multiple values of the lattice volume. The interpolation/extrapolation to the physical pion and kaon mass point, the continuum, and infinite volume limits are performed with a variety of different extrapolation functions utilizing both the relevant mixed-action effective field theory expressions as well as discretization-enhanced continuum chiral perturbation theory formulas. We find that the $a\sim0.06$ fm ensemble is helpful, but not necessary to achieve a subpercent determination of $F_K/F_\pi$. We also include an estimate of the strong isospin breaking corrections and arrive at a final result of $F_{K^\pm}/F_{\pi^\pm} = 1.1942(45)$ with all sources of statistical and systematic uncertainty included. This is consistent with the Flavour Lattice Averaging Group average value, providing an important benchmark for our lattice action. Combining our result with experimental measurements of the pion and kaon leptonic decays leads to a determination of $|V_{us}|/|V_{ud}| = 0.2311(10)$., Comment: v3: published version; v2: version submitted to journal; v1: 26 pages including 13 figures, appendices, and references. See https://github.com/callat-qcd/project_fkfpi for the analysis and data

Published

2020

35. Lattice QCD Inputs for Nuclear Double Beta Decay

Author

Cirigliano, Vincenzo, Detmold, William, Nicholson, Amy, and Shanahan, Phiala

Subjects

Nuclear Theory, High Energy Physics - Lattice, High Energy Physics - Phenomenology

Abstract

Second order beta-decay processes with and without neutrinos in the final state are key probes of nuclear physics and of the nature of neutrinos. Neutrinoful double-beta decay is the rarest Standard Model process that has been observed and provides a unique test of the understanding of weak nuclear interactions. Observation of neutrinoless double-beta decay would reveal that neutrinos are Majorana fermions and that lepton number conservation is violated in nature. While significant progress has been made in phenomenological approaches to understanding these processes, establishing a connection between these processes and the physics of the Standard Model and beyond is a critical task as it will provide input into the design and interpretation of future experiments. The strong-interaction contributions to double-beta decay processes are non-perturbative and can only be addressed systematically through a combination of lattice Quantum Chromoodynamics (LQCD) and nuclear many-body calculations. In this review, current efforts to establish the LQCD connection are discussed for both neutrinoful and neutrinoless double-beta decay. LQCD calculations of the hadronic contributions to the neutrinoful process $nn\to pp e^- e^- \bar\nu_e\bar\nu_e$ and to various neutrinoless pionic transitions are reviewed, and the connections of these calculations to the phenomenology of double-beta decay through the use of effective field theory (EFTs) is highlighted. At present, LQCD calculations are limited to small nuclear systems, and to pionic subsystems, and require matching to appropriate EFTs to have direct phenomenological impact. However, these calculations have already revealed qualitatively that there are terms in the EFTs that can only be constrained from double-beta decay processes themselves or using inputs from LQCD. Future prospects for direct calculations in larger nuclei are also discussed., Comment: 53 pages, 17 figures

Published

2020

36. Transitioning to Telemedicine during COVID-19: Impact on Perceptions and Use of Telemedicine Procedures for the Diagnosis of Autism in Toddlers

Author

Wagner, Liliana, Weitlauf, Amy S., Hine, Jeffrey, Corona, Laura L., Berman, Anna F., Nicholson, Amy, Allen, William, Black, Michelle, and Warren, Zachary

Abstract

The COVID-19 pandemic has increased the use of telemedicine as an avenue to address the need for diagnostic clarification in young children at risk for autism spectrum disorder (ASD). Although preliminary research has supported the use of telemedicine for identifying ASD in toddlers, little is known about the experiences of practitioners attempting direct-to-home tele-assessment. We surveyed diagnostic providers regarding changes in practice behavior in the initial months of the COVID-19 pandemic and their perceptions of ASD tele-assessment. We also examined the use of the TELE-ASD-PEDS, a novel tool for ASD tele-assessment, in response to COVID-19 at seven sites across the country. Results support the clinical acceptability and diagnostic utility of ASD tele-assessment while also highlighting critical avenues of future investigation.

Published

2022

37. Scale setting the Möbius domain wall fermion on gradient-flowed HISQ action using the omega baryon mass and the gradient-flow scales t0 and w0

Author

Miller, Nolan, Carpenter, Logan, Berkowitz, Evan, Chang, Chia Cheng, 張家丞, Hörz, Ben, Howarth, Dean, Monge-Camacho, Henry, Rinaldi, Enrico, Brantley, David A, Körber, Christopher, Bouchard, Chris, Clark, MA, Gambhir, Arjun Singh, Monahan, Christopher J, Nicholson, Amy, Vranas, Pavlos, and Walker-Loud, André

Subjects

Mathematical Physics, Particle and High Energy Physics, Mathematical Sciences, Physical Sciences, hep-lat, hep-ph, nucl-th

Abstract

We report on a subpercent scale determination using the omega baryon mass and gradient-flow methods. The calculations are performed on 22 ensembles of Nf=2+1+1 highly improved, rooted staggered sea-quark configurations generated by the MILC and CalLat Collaborations. The valence quark action used is Möbius domain wall fermions solved on these configurations after a gradient-flow smearing is applied with a flowtime of tgf=1 in lattice units. The ensembles span four lattice spacings in the range 0.06a0.15 fm, six pion masses in the range 130mπ400 MeV and multiple lattice volumes. On each ensemble, the gradient-flow scales t0/a2 and w0/a and the omega baryon mass amω are computed. The dimensionless product of these quantities is then extrapolated to the continuum and infinite volume limits and interpolated to the physical light, strange and charm quark mass point in the isospin limit, resulting in the determination of t0=0.1422(14) fm and w0=0.1709(11) fm with all sources of statistical and systematic uncertainty accounted for. The dominant uncertainty in both results is the stochastic uncertainty, though for t0 there are comparable continuum extrapolation uncertainties. For w0, there is a clear path for a few-per-mille uncertainty just through improved stochastic precision, as recently obtained by the Budapest-Marseille-Wuppertal Collaboration.

Published

2021

38. Two-nucleon S-wave interactions at the SU(3) flavor-symmetric point with mud≈msphys: A first lattice QCD calculation with the stochastic Laplacian Heaviside method

Author

Hörz, Ben, Howarth, Dean, Rinaldi, Enrico, Hanlon, Andrew, Chang, Chia Cheng, 張家丞, Körber, Christopher, Berkowitz, Evan, Bulava, John, Clark, MA, Lee, Wayne Tai, Morningstar, Colin, Nicholson, Amy, Vranas, Pavlos, and Walker-Loud, André

Subjects

Nuclear and Plasma Physics, Particle and High Energy Physics, Quantum Physics, Physical Sciences, hep-lat, hep-ph, nucl-ex, nucl-th, Nuclear and plasma physics

Abstract

We report on the first application of the stochastic Laplacian Heaviside method for computing multiparticle interactions with lattice QCD to the two-nucleon system. Like the Laplacian Heaviside method, this method allows for the construction of interpolating operators which can be used to construct a set of positive-definite two-nucleon correlation functions, unlike nearly all other applications of lattice QCD to two nucleons in the literature. It also allows for a variational analysis in which optimal linear combinations of the interpolating operators are formed that couple predominantly to the eigenstates of the system. Utilizing such methods has become of paramount importance to help resolve the discrepancy in the literature on whether two nucleons in either isospin channel form a bound state at pion masses heavier than physical, with the discrepancy persisting even in the SU(3)-flavor-symmetric point with all quark masses near the physical strange quark mass. This is the first in a series of papers aimed at resolving this discrepancy. In the present work, we employ the stochastic Laplacian Heaviside method without a hexaquark operator in the basis at a lattice spacing of a≈0.086 fm, lattice volume of L=48a≈4.1 fm and pion mass mπ≈714 MeV. With this setup, the observed spectrum of two-nucleon energy levels strongly disfavors the presence of a bound state in either the deuteron or dineutron channel.

Published

2021

39. Lattice QCD Determination of $g_A$

Author

Walker-Loud, André, Berkowitz, Evan, Brantley, David A., Gambhir, Arjun, Vranas, Pavlos, Bouchard, Chris, Chang, Chia Cheng, Clark, M. A., Garron, Nicolas, Joó, Bálint, Kurth, Thorsten, Monge-Camacho, Henry, Nicholson, Amy, Monahan, Christopher J., Orginos, Kostas, and Rinaldi, Enrico

Subjects

High Energy Physics - Lattice, High Energy Physics - Phenomenology, Nuclear Experiment, Nuclear Theory

Abstract

The nucleon axial coupling, $g_A$, is a fundamental property of protons and neutrons, dictating the strength with which the weak axial current of the Standard Model couples to nucleons, and hence, the lifetime of a free neutron. The prominence of $g_A$ in nuclear physics has made it a benchmark quantity with which to calibrate lattice QCD calculations of nucleon structure and more complex calculations of electroweak matrix elements in one and few nucleon systems. There were a number of significant challenges in determining $g_A$, notably the notorious exponentially-bad signal-to-noise problem and the requirement for hundreds of thousands of stochastic samples, that rendered this goal more difficult to obtain than originally thought. I will describe the use of an unconventional computation method, coupled with "ludicrously'" fast GPU code, access to publicly available lattice QCD configurations from MILC and access to leadership computing that have allowed these challenges to be overcome resulting in a determination of $g_A$ with 1% precision and all sources of systematic uncertainty controlled. I will discuss the implications of these results for the convergence of $SU(2)$ Chiral Perturbation theory for nucleons, as well as prospects for further improvements to $g_A$ (sub-percent precision, for which we have preliminary results) which is part of a more comprehensive application of lattice QCD to nuclear physics. This is particularly exciting in light of the new CORAL supercomputers coming online, Sierra and Summit, for which our lattice QCD codes achieve a machine-to-machine speed up over Titan of an order of magnitude., Comment: Plenary presentation at The 9th International workshop on Chiral Dynamics

Published

2019

40. Towards grounding nuclear physics in QCD

Author

Drischler, Christian, Haxton, Wick, McElvain, Kenneth, Mereghetti, Emanuele, Nicholson, Amy, Vranas, Pavlos, and Walker-Loud, André

Subjects

Nuclear Theory, High Energy Physics - Experiment, High Energy Physics - Lattice, High Energy Physics - Phenomenology, Nuclear Experiment

Abstract

Exascale computing could soon enable a predictive theory of nuclear structure and reactions rooted in the Standard Model, with quantifiable and systematically improvable uncertainties. Such a predictive theory will help exploit experiments that use nucleons and nuclei as laboratories for testing the Standard Model and its limitations. Examples include direct dark matter detection, neutrinoless double beta decay, and searches for permanent electric dipole moments of the neutron and atoms. It will also help connect QCD to the properties of cold neutron stars and hot supernova cores. We discuss how a quantitative bridge between QCD and the properties of nuclei and nuclear matter will require a synthesis of lattice QCD (especially as applied to two- and three-nucleon interactions), effective field theory, and ab initio methods for solving the nuclear many-body problem. While there are significant challenges that must be addressed in developing this triad of theoretical tools, the rapid advance of computing is accelerating progress. In particular, we focus this review on the anticipated advances from lattice QCD and how these advances will impact few-body effective theories of nuclear physics by providing critical input, such as constraints on unknown low-energy constants of the effective (field) theories. We also review particular challenges that must be overcome for the successful application of lattice QCD for low-energy nuclear physics. We describe progress in developing few-body effective (field) theories of nuclear physics, with an emphasis on HOBET, a non-relativistic effective theory of nuclear physics, which is less common in the literature. We use the examples of neutrinoless double beta decay and the nuclear-matter equation of state to illustrate how the coupling of lattice QCD to effective theory might impact our understanding of symmetries and exotic astrophysical environments., Comment: v3: version published in Progress in Particle and Nuclear Physics; v2: updated manuscript based upon community feedback and referee comments. Also, substantially re-written section on two-nucleon lattice QCD controversy. 53.5 pages plus a "few more" references; v1: Contribution to: The tower of effective (field) theories and the emergence of nuclear phenomena; 47 pages plus a "few" references

Published

2019

41. The Stochastic Feynman-Hellmann Method

Author

Gambhir, Arjun Singh, Berkowitz, Evan, Brantley, David, Chang, Chia Cheng, Clark, M. A., Kurth, Thorsten, Monahan, Chris, Nicholson, Amy, Vranas, Pavlos, and Walker-Loud, André

Subjects

High Energy Physics - Lattice

Abstract

The Feynman-Hellmann method, as implemented by Bouchard et al. [1612.06963], was recently employed successfully to determine the nucleon axial charge. A limitation of the method was the restriction to a single operator and a single momentum during the computation of each "Feynman- Hellmann" propagator. By using stochastic techniques to estimate the all-to-all propagator, we relax this constraint and demonstrate the successful implementation of this new method. We show reproduction of the axial charge on a test ensemble and non-zero momentum transfer points of the axial and vector form factors., Comment: 7 pages, 5 figures, Proceedings for The 36th International Symposium on Lattice Field Theory

Published

2019

42. Short Range Operator Contributions to $0\nu\beta\beta$ decay from LQCD

Author

Monge-Camacho, Henry, Berkowitz, Evan, Brantley, David, Chang, Chia Cheng, Clark, M. A., Gambhir, Arjun, Garrón, Nicolas, Joó, Bálint, Kurth, Thorsten, Nicholson, Amy, Rinaldi, Enrico, Tiburzi, Brian, Vranas, Pavlos, and Walker-Loud, André

Subjects

High Energy Physics - Lattice, Nuclear Theory

Abstract

The search for neutrinoless double beta decay of nuclei is believed to be one of the most promising means to search for new physics. Observation of this very rare nuclear process, which violates Lepton Number conservation, would imply the neutrino sector has a Majorana mass component and may also provide an explanation for the universe matter-antimatter asymmetry of the universe. In the case where a heavy intermediate particle is exchanged in this process, QCD contributions from short range interactions become relevant and the calculation of matrix elements with four-quark operators becomes necessary. In these proceedings we will discuss our current progress in the calculation of these four-quark operators from LQCD., Comment: Proceedings of the 36th Annual International Symposium on Lattice Field Theory, 22-28 July, 2018, Michigan State University, East Lansing, Michigan

Published

2019

43. Progress in Multibaryon Spectroscopy

Author

Berkowitz, Evan, Brantley, David, McElvain, Kenneth, Walker-Loud, André, Chang, Chia Cheng, Clark, M. A., Kurth, Thorsten, Joó, Bálint, Monge-Camacho, Henry, Nicholson, Amy, Rinaldi, Enrico, and Vranas, Pavlos

Subjects

High Energy Physics - Lattice, Nuclear Theory

Abstract

Anchoring the nuclear interaction in QCD is a long-outstanding problem in nuclear physics. While the lattice community has made enormous progress in mesonic physics and single nucleon physics, continuum-limit physical-point multi-nucleon physics has remained out of reach. I will review CalLat's strategy for multi-nucleon spectroscopy and our latest results., Comment: Proceedings of the 36th Annual International Symposium on Lattice Field Theory, 22-28 July, 2018, Michigan State University, East Lansing, Michigan

Published

2019

44. âTransformers One' is better than Bay, and that '80s show, too

Author

Nicholson, Amy

Subjects

Transformers One (Motion picture) -- Cooley, Josh -- Hemsworth, Chris -- Henry, Brian Tyree, Motion pictures -- Movie reviews

Abstract

Byline: Amy Nicholson Check out this car trick. âTransformers One,â an energetic charmer by director Josh Cooley (âToy Story 4â), takes the brand that's been, variously, a trinket from Japan, [...]

Published

2024

45. In âLook Into My Eyes,' they see dead people, but that's not all

Author

Nicholson, Amy

Subjects

Look Into My Eyes (Documentary Film) -- Wilson, Lana, Motion pictures -- Movie reviews, General interest, News, opinion and commentary

Abstract

Byline: Amy Nicholson âLook Into My Eyes,â an oddly dry and lovely documentary by the director Lana Wilson, opens with a montage of New Yorkers and the questions they've come [...]

Published

2024

46. Uglies

Author

Nicholson, Amy

Subjects

Uglies (Motion picture) -- King, Joey, Motion pictures -- Movie reviews

Abstract

Joey King plays a teenager in a dystopian world where cosmetic surgery seems to be the cure for inequality. 'Uglies,' based on the young adult book series by Scott Westerfeld, […]

Published

2024

47. âSpeak No Evil': If you can't say something nice ⦠scream!

Author

Nicholson, Amy

Subjects

Speak No Evil (Motion picture) -- Davis, Mackenzie -- McNairy, Scoot -- Lefler, Alix West -- McAvoy, James -- Franciosi, Aisling -- Hough, Dan -- Watkins, James, Motion pictures -- Movie reviews

Abstract

Byline: Amy Nicholson âSpeak No Evilâ is the rowdiest horror flick in ages, a hilarious and venomous little nasty that cattle-prods the audience to scream everything its lead characters choke [...]

Published

2024

48. Outrage Constrained by Futility

Author

Nicholson, Amy

Subjects

Rebel Ridge (Motion picture) -- Pierre, Aaron -- Saulnier, Jeremy -- Johnson, Don, Motion pictures -- Movie reviews, General interest, News, opinion and commentary

Abstract

This crime drama from Jeremy Saulnier stars Aaron Pierre as a man whose run-in with small-town police officers uncovers uncomfortable secrets. A veteran arrives in a rural town to find [...]

Published

2024

49. The Year Tom Cruise Gave Not One but Two Dangerously Vulnerable Performances

Author

Nicholson, Amy

Subjects

Eyes Wide Shut (Motion picture), General interest

Abstract

Byline: Amy Nicholson Twenty-five years ago, the superstar starred in 'Eyes Wide Shut' and 'Magnolia,' and opened himself up for the camera in ways he rarely has since. 'Eyes Wide [...]

Published

2024

50. Exorcising Many Demons, Real and Inner

Author

Nicholson, Amy

Subjects

The Deliverance (Daniels, Lee) (Motion picture) -- Day, Andra -- Singleton, Demi -- Daniels, Lee, Motion pictures -- Movie reviews, General interest, News, opinion and commentary

Abstract

Lee Daniels directs Andra Day and Glenn Close in an exorcism tale that includes melodrama along with the scares. The director Lee Daniels frees his actors to exorcise their demons [...]

Published

2024