Your search keyword '"Qiu, Jian"' showing total 145 results

1. Azimuthal modulations and extraction of generalized parton distributions

Author

Qiu, Jian-Wei, Sato, Nobuo, and Yu, Zhite

Subjects

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

Abstract

Azimuthal modulations are crucial for the phenomenological extraction and separation of various generalized parton distributions. We provide a new choice of frame and corresponding formalism to describe the azimuthal distributions, based on the separation of physics occurring at different momentum scales. We demonstrate that this new description is not only well-suited for experimental analysis, but also advantageous in separating contributions from different subprocesses to the same physical cross section., Comment: 5 pages, 3 figures, plus a 3-page supplemental material

Published

2024

2. Physics case for quarkonium studies at the Electron Ion Collider

Author

Boer, Daniël, Flett, Chris A., Flore, Carlo, Kikoła, Daniel, Lansberg, Jean-Philippe, Nefedov, Maxim, Van Hulse, Charlotte, Bhattacharya, Shohini, Bor, Jelle, Butenschoen, Mathias, Ceccopieri, Federico, Chen, Longjie, Cheung, Vincent, D'Alesio, Umberto, Echevarria, Miguel, Hatta, Yoshitaka, Hyde, Charles E., Kishore, Raj, Kosarzewski, Leszek, Lorcé, Cédric, Li, Wenliang, Li, Xuan, Maxia, Luca, Metz, Andreas, Mukherjee, Asmita, Camacho, Carlos Muñoz, Murgia, Francesco, Nadel-Turonski, Pawel, Pisano, Cristian, Qiu, Jian-Wei, Rajesh, Sangem, Rinaldi, Matteo, West, Jennifer Rittenhouse, Saleev, Vladimir, Santiesteban, Nathaly, Setyadi, Chalis, Taels, Pieter, Tu, Zhoudunmin, Vitev, Ivan, Vogt, Ramona, Watanabe, Kazuhiro, Yao, Xiaojun, Yedelkina, Yelyzaveta, and Yoshida, Shinsuke

Subjects

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

Abstract

The physics case for quarkonium-production studies accessible at the US Electron Ion Collider is described., Comment: Latex, 84 pages. Review prepared for Progress in Particle and Nuclear Physics

Published

2024

3. Factorized QED Contribution to Lepton-Hadron DIS

Author

Cammarota, Justin, Qiu, Jian-Wei, Watanabe, Kazuhiro, and Zhang, Jia-Yue

Subjects

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

Abstract

We present the first calculation of next-to-leading order (NLO) factorized QED contributions to the short-distance hard coefficients of inclusive lepton-hadron deep inelastic scattering (DIS) in a joint QCD and QED factorization approach. We demonstrate how the joint factorization consistently factorize all perturbative collinear sensitivities of partonic scattering in both QCD and QED into corresponding universal hadron and lepton distribution functions without the need of any parameters other than the standard factorization scale. We discuss the necessary modification to DGLAP-type evolution of the parton and lepton distribution functions in this joint factorization approach. We also discuss the potential impact of this joint factorization approach on the extraction of partonic information from lepton-hadron DIS., Comment: 6 pages, 2 figures; contributed talk to DIS2024

Published

2024

4. New physical processes for extracting GPDs with a better sensitivity to partonic structure

Author

Qiu, Jian-Wei and Yu, Zhite

Subjects

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

Abstract

We introduce a new type of exclusive processes for a better study of generalized parton distributions (GPDs), which we refer to as single-diffractive hard exclusive processes (SDHEPs). We advocate a two-stage framework for picturing SDHEPs based on the separation of scales, which gives a clear description both kinematically and dynamically. We examine the sensitivity of the SDHEP to the parton momentum fraction $x$-dependence of GPDs, and demonstrate it quantitatively with two specific processes that can be readily measured at J-PARC or AMBER using a pion beam and at JLab using a photon beam, respectively. Both processes are capable of providing enhanced sensitivity to the $x$-dependence, overcoming the problem of shadow GPDs, and disentangling different types of GPDs with various spin asymmetries., Comment: 5 pages, 2 figures; contributed talk to DIS2024

Published

2024

5. An antiferromagnetic diode effect in even-layered MnBi2Te4

Author

Gao, Anyuan, Chen, Shao-Wen, Ghosh, Barun, Qiu, Jian-Xiang, Liu, Yu-Fei, Onishi, Yugo, Hu, Chaowei, Qian, Tiema, Bérubé, Damien, Dinh, Thao, Li, Houchen, Tzschaschel, Christian, Park, Seunghyun, Huang, Tianye, Lien, Shang-Wei, Sun, Zhe, Ho, Sheng-Chin, Singh, Bahadur, Watanabe, Kenji, Taniguchi, Takashi, Bell, David C., Bansil, Arun, Lin, Hsin, Chang, Tay-Rong, Yacoby, Amir, Ni, Ni, Fu, Liang, Ma, Qiong, and Xu, and Su-Yang

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

In a PN junction, the separation between positive and negative charges leads to diode transport. In the past few years, the intrinsic diode transport in noncentrosymmetric polar conductors has attracted great interest, because it suggests novel nonlinear applications and provides a symmetry-sensitive probe of Fermi surface. Recently, such studies have been extended to noncentrosymmetric superconductors, realizing the superconducting diode effect. Here, we show that, even in a centrosymmetric crystal without directional charge separation, the spins of an antiferromagnet (AFM) can generate a spatial directionality, leading to an AFM diode effect. We observe large second-harmonic transport in a nonlinear electronic device enabled by the compensated AFM state of even-layered MnBi2Te4. We also report a novel electrical sum-frequency generation (SFG), which has been rarely explored in contrast to the well-known optical SFG in wide-gap insulators. We demonstrate that the AFM enables an in-plane field-effect transistor and harvesting of wireless electromagnetic energy. The electrical SFG establishes a powerful method to study nonlinear electronics built by quantum materials. The AFM diode effect paves the way for potential device concepts including AFM logic circuits, self-powered AFM spintronics, and other applications that potentially bridge nonlinear electronics with AFM spintronics., Comment: 33+8 pages, 14+2 figures

Published

2024

6. Extracting transition generalized parton distributions from hard exclusive pion-nucleon scattering

Author

Qiu, Jian-Wei and Yu, Zhite

Subjects

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

Abstract

We study the extraction of transition generalized parton distributions (GPDs) from production of two back-to-back high transverse momentum photons ($\gamma\gamma$) and a massive pair of leptons ($\ell^+\ell^-$) in hard exclusive pion-nucleon scattering. We argue that the exclusive scattering amplitude of both processes could be factorized into nonperturbative pion distribution amplitude and nucleon transition GPDs that are convoluted with perturbatively calculable short-distance matching coefficients. We demonstrate that the exclusive diphoton production not only is complementary to the Drell-Yan-type dilepton production for extracting the GPDs, but also provides enhanced sensitivities for extracting the parton momentum fraction $x$ dependence of the GPDs. We show that both exclusive observables are physically measurable at the J-PARC and AMBER experiment energies. If the target nucleon can be polarized, corresponding spin asymmetries can offer additional sensitivities for extracting transition GPDs., Comment: 7+2 pages, 9 figures; journal published version

Published

2024

7. Gas-phase molecules in protoplanetary nebulae with the 21 {\mu}m emission feature

Author

Qiu, Jian-Jie, Zhang, Yong, Nakashima, Jun-ichi, Zhang, Jiang-Shui, Li, Fei, Lu, Deng-Rong, Tang, Xin-Di, Yu, Xiao-Ling, and Jia, Lan-Wei

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Solar and Stellar Astrophysics

Abstract

It has been more than 30 years since the enigmatic 21 {\mu}m emission feature was first discovered in protoplanetary nebulae (PPNs). Although dozens of different dust carrier candidates have been proposed, there is as yet no widely accepted one. We present the results of molecular observations toward 21{\mu}m objects using the 10m Submillimeter Telescope of Arizona Radio Observatory at the 1.3 mm band and the 13.7 m telescope of Purple Mountain Observatory at the 3mm band, aiming to investigate whether the gas-phase environments of these unusual sources have some peculiarities compared to normal PPNs. We detect 31 emission lines belonging to seven different molecular species, most of which are the first detection in 21 {\mu}m PPNs. The observations provide clues on the identification of the 21 {\mu}m feature. We report a correlation study between the fractional abundance of gas-phase molecules and the strengths of the 21 {\mu}m emission. Our study shows that given the small sample size, the 21 {\mu}m feature has weak or no correlations with the gas-phase molecules. Future radio observations of high spatial and spectral resolution toward a large sample are desirable to elucidate the 21 {\mu}m emission phenomena., Comment: 40 pages, 10 figures, 11 tables, accepted for publication in The Astronomical Journal

Published

2023

8. Diffusion model approach to simulating electron-proton scattering events

Author

Devlin, Peter, Qiu, Jian-Wei, Ringer, Felix, and Sato, Nobuo

Subjects

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

Abstract

Generative AI is a fast-growing area of research offering various avenues for exploration in high-energy nuclear physics. In this work, we explore the use of generative models for simulating electron-proton collisions relevant to experiments like CEBAF and the future Electron-Ion Collider (EIC). These experiments play a critical role in advancing our understanding of nucleons and nuclei in terms of quark and gluon degrees of freedom. The use of generative models for simulating collider events faces several challenges such as the sparsity of the data, the presence of global or event-wide constraints, and steeply falling particle distributions. In this work, we focus on the implementation of diffusion models for the simulation of electron-proton scattering events at EIC energies. Our results demonstrate that diffusion models can accurately reproduce relevant observables such as momentum distributions and correlations of particles, momentum sum rules, and the leading electron kinematics, all of which are of particular interest in electron-proton collisions. Although the sampling process is relatively slow compared to other machine learning architectures, we find diffusion models can generate high-quality samples. We foresee various applications of our work including inference for nuclear structure, interpretable generative machine learning, and searches of physics beyond the Standard Model., Comment: 14 pages, 10 figures, journal version

Published

2023

9. Systematic Search for Water Fountain Candidates using the Databases of Circumstellar Maser Sources

Author

Fan, Haichen, Nakashima, Jun-ichi, Engels, D., Zhang, Yong, Qiu, Jian-Jie, Feng, Huan-Xue, Xie, Jia-Yong, Imai, Hiroshi, and Hsia, Chih-Hao

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

Water fountains (WFs) are thought to be objects in the morphological evolution of the circumstellar envelopes of low- and intermediate-mass evolved stars, transitioning from spherically symmetric to asymmetric shapes. We used databases of circumstellar 1612 MHz OH and 22.235 GHz H$_2$O maser sources to search for new WF candidates using the criterion of a larger velocity range of the H$_2$O maser emission compared to that of the OH maser emission. Thus, it is in principle possible to identify WFs with an H$_2$O velocity ranges smaller than those for the previously known WFs. For the OH maser line, we analyzed database entries of 8,474 observations from 2,195 sources, and 6,085 observations from 3,642 sources for H$_2$O maser line. After a close examination of the velocity ranges and line profiles, we identified 11 sources that meet the criterion mentioned above. We examined the IRAS colors of the selected sources and found that two of them (IRAS 19069+0916 and IRAS 19319+2214) are in the color region for post-AGB stars. We find that the maser velocity criterion can discover other astrophysically interesting objects than just WFs. Such objects may include peculiar planetary nebulae with maser emissions and stellar merger remnants., Comment: 34 pages, 10 figures, Accepted for publication in ApJS

Published

2023

10. A 3 mm Molecular Line Survey toward The C-star Envelope CIT 6

Author

Yang, Kui-Lu, Zhang, Yong, Qiu, Jian-Jie, Ao, Yi-Na, and Li, Xiao-Hu

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

We present an unbiased molecular line survey toward the carbon-rich circumstellar envelope CIT 6 carried out between 90 and 116 GHz with the Arizona Radio Observatory 12 m telescope. A total of 42 lines assigned to 10 molecular species and 4 isotopologues are detected. Despite the absence of any newly identified circumstellar molecules, several transitions are freshly reported for this object. This work is a complement to our previous line survey toward CIT 6 in the frequency ranges of 36-49 GHz and 131-268 GHz. Based on the measurements and in combination with previously published data, we perform a rotation-diagram analysis to determine the column densities, excitation temperatures, and fractional abundances of the molecules. The excitation temperature varies along the radius. The abundance pattern of CIT6 is broadly consistent with that of the prototype C-star IRC+10216 at the specified detection sensitivity, indicating that the molecular richness in IRC+10216 cannot be attributed to an interpretation of unusual chemistry. Nevertheless, subtle distinctions between the two C-stars are found. The higher abundance of carbon-chain molecules and lower 12C/13C ratio in CIT 6 compared to IRC+10216 imply that the former is more massive or in a more evolved phase than the latter., Comment: 34 pages, 14 figures, 5 tables

Published

2023

11. Nonlinear optical diode effect in a magnetic Weyl semimetal

Author

Tzschaschel, Christian, Qiu, Jian-Xiang, Gao, Xue-Jian, Li, Hou-Chen, Guo, Chunyu, Yang, Hung-Yu, Zhang, Cheng-Ping, Xie, Ying-Ming, Liu, Yu-Fei, Gao, Anyuan, Bérubé, Damien, Dinh, Thao, Ho, Sheng-Chin, Fang, Yuqiang, Huang, Fuqiang, Nordlander, Johanna, Ma, Qiong, Tafti, Fazel, Moll, Philip J. W., Law, Kam Tuen, and Xu, Su-Yang

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science, Physics - Optics

Abstract

Diode effects are of great interest for both fundamental physics and modern technologies. Electrical diode effects (nonreciprocal transport) have been observed in Weyl systems. Optical diode effects arising from the Weyl fermions have been theoretically considered but not probed experimentally. Here, we report the observation of a nonlinear optical diode effect (NODE) in the magnetic Weyl semimetal CeAlSi, where the magnetization introduces a pronounced directionality in the nonlinear optical second-harmonic generation (SHG). We show demonstrate a six-fold change of the measured SHG intensity between opposite propagation directions over a bandwidth exceeding 250 meV. Supported by density-functional theory, we establish the linearly dispersive bands emerging from Weyl nodes as the origin of this broadband effect. We further demonstrate current-induced magnetization switching and thus electrical control of the NODE. Our results advance ongoing research to identify novel nonlinear optical/transport phenomena in magnetic topological materials and further opens new pathways for the unidirectional manipulation of light., Comment: 20 pages, 4 figures, SI included

Published

2023

12. Quantum metric nonlinear Hall effect in a topological antiferromagnetic heterostructure

Author

Gao, Anyuan, Liu, Yu-Fei, Qiu, Jian-Xiang, Ghosh, Barun, Trevisan, Thaís V., Onishi, Yugo, Hu, Chaowei, Qian, Tiema, Tien, Hung-Ju, Chen, Shao-Wen, Huang, Mengqi, Bérubé, Damien, Li, Houchen, Tzschaschel, Christian, Dinh, Thao, Sun, Zhe, Ho, Sheng-Chin, Lien, Shang-Wei, Singh, Bahadur, Watanabe, Kenji, Taniguchi, Takashi, Bell, David C., Lin, Hsin, Chang, Tay-Rong, Du, Chunhui Rita, Bansil, Arun, Fu, Liang, Ni, Ni, Orth, Peter P., Ma, Qiong, and Xu, Su-Yang

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Strongly Correlated Electrons

Abstract

Quantum geometry - the geometry of electron Bloch wavefunctions - is central to modern condensed matter physics. Due to the quantum nature, quantum geometry has two parts, the real part quantum metric and the imaginary part Berry curvature. The studies of Berry curvature have led to countless breakthroughs, ranging from the quantum Hall effect in 2DEGs to the anomalous Hall effect (AHE) in ferromagnets. However, in contrast to Berry curvature, the quantum metric has rarely been explored. Here, we report a new nonlinear Hall effect induced by quantum metric by interfacing even-layered MnBi2Te4 (a PT-symmetric antiferromagnet (AFM)) with black phosphorus. This novel nonlinear Hall effect switches direction upon reversing the AFM spins and exhibits distinct scaling that suggests a non-dissipative nature. Like the AHE brought Berry curvature under the spotlight, our results open the door to discovering quantum metric responses. Moreover, we demonstrate that the AFM can harvest wireless electromagnetic energy via the new nonlinear Hall effect, therefore enabling intriguing applications that bridges nonlinear electronics with AFM spintronics., Comment: 19 pages, 4 figures and a Supplementary Materials with 66 pages, 4 figures and 3 tables. Originally submitted to Science on Oct. 5, 2022

Published

2023

13. Extraction of the Parton Momentum-Fraction Dependence of Generalized Parton Distributions from Exclusive Photoproduction

Author

Qiu, Jian-Wei and Yu, Zhite

Subjects

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

Abstract

The $x$ dependence of hadrons' generalized parton distributions (GPDs) $\mathcal{F}(x,\xi,t)$ is the most difficult to extract from the existing known processes, while the $\xi$ and $t$ dependence are uniquely determined by the kinematics of the scattered hadron. We study the single diffractive hard exclusive processes for extracting GPDs in the photoproduction. We demonstrate quantitatively the enhanced sensitivity on extracting the $x$ dependence of various GPDs from the photoproduction cross sections, as well as the asymmetries constructed from photon polarization and hadron spin that could be measured at JLab Hall D by GlueX Collaboration and future facilities., Comment: 5 pages, 5 figures, plus a supplemental material that is 5 pages + 2 figures; to match the journal version

Published

2023

14. Quantisation via Branes and Minimal Resolution

Author

Qiu, Jian

Subjects

High Energy Physics - Theory, Mathematics - Algebraic Geometry, Mathematics - Symplectic Geometry

Abstract

The `brane quantisation' procedure is developed by Gukov and Witten \cite{Gukov:2008ve}. We implement this idea by combining it with the tilting theory and the minimal resolutions. This way, we can realistically compute the deformation quantisation on the space of observables acting on the Hilbert space. We apply this procedure to certain quantisation problem in the context of generalised K\"ahler structure on $\mathbb{P}^2$. Our approach differs from and complements that of Bischoff and Gualtieri \cite{Bischoff:2021ixy}. We also benefitted from an important technical tool: a combinatorial criterion for the Maurer-Cartan equation, developed in \cite{BarmeierWang} by Barmeier and Wang., Comment: 39+9 pages, typos fixed, comments welcome

Published

2023

15. TMD Handbook

Author

Boussarie, Renaud, Burkardt, Matthias, Constantinou, Martha, Detmold, William, Ebert, Markus, Engelhardt, Michael, Fleming, Sean, Gamberg, Leonard, Ji, Xiangdong, Kang, Zhong-Bo, Lee, Christopher, Liu, Keh-Fei, Liuti, Simonetta, Mehen, Thomas, Metz, Andreas, Negele, John, Pitonyak, Daniel, Prokudin, Alexei, Qiu, Jian-Wei, Rajan, Abha, Schlegel, Marc, Shanahan, Phiala, Schweitzer, Peter, Stewart, Iain W., Tarasov, Andrey, Venugopalan, Raju, Vitev, Ivan, Yuan, Feng, and Zhao, Yong

Subjects

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

Abstract

This handbook provides a comprehensive review of transverse-momentum-dependent parton distribution functions and fragmentation functions, commonly referred to as transverse momentum distributions (TMDs). TMDs describe the distribution of partons inside the proton and other hadrons with respect to both their longitudinal and transverse momenta. They provide unique insight into the internal momentum and spin structure of hadrons, and are a key ingredient in the description of many collider physics cross sections. Understanding TMDs requires a combination of theoretical techniques from quantum field theory, nonperturbative calculations using lattice QCD, and phenomenological analysis of experimental data. The handbook covers a wide range of topics, from theoretical foundations to experimental analyses, as well as recent developments and future directions. It is intended to provide an essential reference for researchers and graduate students interested in understanding the structure of hadrons and the dynamics of partons in high energy collisions., Comment: 471 pages, many figures

Published

2023

16. Axion optical induction of antiferromagnetic order

Author

Qiu, Jian-Xiang, Tzschaschel, Christian, Ahn, Junyeong, Gao, Anyuan, Li, Houchen, Zhang, Xin-Yue, Ghosh, Barun, Hu, Chaowei, Wang, Yu-Xuan, Liu, Yu-Fei, Bérubé, Damien, Dinh, Thao, Gong, Zhenhao, Lien, Shang-Wei, Ho, Sheng-Chin, Singh, Bahadur, Watanabe, Kenji, Taniguchi, Takashi, Bell, David C., Lu, Hai-Zhou, Bansil, Arun, Lin, Hsin, Chang, Tay-Rong, Zhou, Brian B., Ma, Qiong, Vishwanath, Ashvin, Ni, Ni, and Xu, Su-Yang

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science

Abstract

Using circularly-polarized light to control quantum matter is a highly intriguing topic in physics, chemistry and biology. Previous studies have demonstrated helicity-dependent optical control of spatial chirality and magnetization $M$. The former is central for asymmetric synthesis in chemistry and homochirality in bio-molecules, while the latter is of great interest for ferromagnetic spintronics. In this paper, we report the surprising observation of helicity-dependent optical control of fully-compensated antiferromagnetic (AFM) order in 2D even-layered MnBi$_2$Te$_4$, a topological Axion insulator with neither chirality nor $M$. We further demonstrate helicity-dependent optical creation of AFM domain walls by double induction beams and the direct reversal of AFM domains by ultrafast pulses. The control and reversal of AFM domains and domain walls by light helicity have never been achieved in any fully-compensated AFM. To understand this optical control, we study a novel type of circular dichroism (CD) proportional to the AFM order, which only appears in reflection but is absent in transmission. We show that the optical control and CD both arise from the optical Axion electrodynamics, which can be visualized as a Berry curvature real space dipole. Our Axion induction provides the possibility to optically control a family of $\mathcal{PT}$-symmetric AFMs such as Cr$_2$O$_3$, CrI$_3$ and possibly novel states in cuprates. In MnBi$_2$Te$_4$, this further opens the door for optical writing of dissipationless circuit formed by topological edge states.

Published

2023

17. Molecules in the peculiar age-defying source IRAS 19312+1950

Author

Qiu, Jian-Jie, Zhang, Yong, Nakashima, Jun-ichi, Zhang, Jiang-Shui, Koning, Nico, Tang, Xin-Di, Yan, Yao-Ting, and Feng, Huan-Xue

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Solar and Stellar Astrophysics

Abstract

Context. IRAS 19312+1950 is an isolated infrared source that exhibits a characteristic quasi-point-symmetric morphology in the near- and mid-infrared images and is also very bright in molecular radio lines. Because of its unique observational characteristics, various observational studies have been conducted and several hypotheses have been proposed regarding its origin, which is still unclear. So far, it has been suggested that it could be a peculiar evolved star, a young stellar object, or even a red nova remnant. Regardless of which type of object it is ultimately classified as, IRAS 19312+1950 is exceptionally bright in the infrared and molecular radio lines and therefore will undoubtedly be crucial as a prototype of this kind of object having a peculiar nature or unusual evolutionary phase. Aims. This study aims to reveal the molecular composition of the central part of IRAS 19312+1950 by performing an unbiased molecular radio line survey and discussing the origin of the object from a molecular chemical point of view. Methods. We carried out a spectral line survey with the IRAM 30 m telescope towards the center of IRAS 19312+1950 in the 3 and 1.3 mm windows. Results. In total, 28 transition lines of 22 molecular species and those isotopologues are detected towards IRAS 19312+1950, some of which exhibit a broad and a narrow components. Seventeen thermal lines and 1 maser line are newly detected. The molecular species of C$^{17}$O, $^{30}$SiO, HN$^{13}$C, HC$^{18}$O$^{+}$, H$_{2}$CO, and $c$-C$_{3}$H$_{2}$ are detected for the first time in this object. Conclusions. Our results, in combination with previous studies, favor the hypothesis that IRAS 19312+1950 might be a red nova remnant, in which the progenitors that merged to become a red nova may have contained at least two evolved stars with oxygen-rich and carbon-rich chemistry, respectively., Comment: 30 pages, 24 figures, accepted for publication in A&A

Published

2022

18. Subleading power corrections to heavy quarkonium production in QCD factorization approach

Author

Lee, Kyle, Qiu, Jian-Wei, Sterman, George, and Watanabe, Kazuhiro

Subjects

High Energy Physics - Phenomenology, Nuclear Theory

Abstract

We report the current understanding of heavy quarkonium production at high transverse momentum ($p_T$) in hadronic collisions in terms of QCD factorization. In this presentation, we highlight the role of subleading power corrections to heavy quarkonium production, which are essential to describe the $p_T$ spectrum of quarkonium at a relatively lower $p_T$. We also introduce prescription to match QCD factorization to fixed-order NRQCD factorization calculations for quarkonium production at low $p_T$., Comment: 8 pages, 4 figures; talk given at the XVth Quark confinement and the Hadron spectrum conference, August 1st - 6th, 2022, University of Stavanger, Norway

Published

2022

19. Single diffractive hard exclusive processes for the study of generalized parton distributions

Author

Qiu, Jian-Wei and Yu, Zhite

Subjects

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

Abstract

Generalized parton distributions (GPDs) are important nonperturbative functions that provide tomographic images of partonic structures of hadrons. We introduce a type of exclusive processes, to be referred to as single diffractive hard exclusive processes (SDHEPs). We discuss the necessary and sufficient conditions for SDHEPs to be factorized into GPDs. We demonstrate that the SDHEP is not only sufficiently generic to cover all known processes for extracting GPDs, but is also well motivated for the search of new processes for the study of GPDs. We examine the sensitivity of the SDHEP to the parton momentum fraction $x$ dependence of GPDs., Comment: 26 pages, 26 figures. To match the journal version

Published

2022

20. Carbon Monitor-Power: near-real-time monitoring of global power generation on hourly to daily scales

Author

Zhu, Biqing, Song, Xuanren, Deng, Zhu, Zhao, Wenli, Huo, Da, Sun, Taochun, Ke, Piyu, Cui, Duo, Lu, Chenxi, Zhong, Haiwang, Hong, Chaopeng, Qiu, Jian, Davis, Steven J., Gentine, Pierre, Ciais, Philippe, and Liu, Zhu

Subjects

Physics - Data Analysis, Statistics and Probability, Economics - Econometrics

Abstract

We constructed a frequently updated, near-real-time global power generation dataset: Carbon Monitor-Power since January, 2016 at national levels with near-global coverage and hourly-to-daily time resolution. The data presented here are collected from 37 countries across all continents for eight source groups, including three types of fossil sources (coal, gas, and oil), nuclear energy and four groups of renewable energy sources (solar energy, wind energy, hydro energy and other renewables including biomass, geothermal, etc.). The global near-real-time power dataset shows the dynamics of the global power system, including its hourly, daily, weekly and seasonal patterns as influenced by daily periodical activities, weekends, seasonal cycles, regular and irregular events (i.e., holidays) and extreme events (i.e., the COVID-19 pandemic). The Carbon Monitor-Power dataset reveals that the COVID-19 pandemic caused strong disruptions in some countries (i.e., China and India), leading to a temporary or long-lasting shift to low carbon intensity, while it had only little impact in some other countries (i.e., Australia). This dataset offers a large range of opportunities for power-related scientific research and policy-making.

Published

2022

21. Exclusive production of a pair of high transverse momentum photons in pion-nucleon collisions for extracting generalized parton distributions

Author

Qiu, Jian-Wei and Yu, Zhite

Subjects

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

Abstract

We show that exclusive production of a pair of high transverse momentum photons in pion-nucleon collisions can be systematically studied in QCD factorization approach if the photon's transverse momentum $q_T$ with respect to the colliding pion is much greater than $\Lambda_{\rm QCD}$. We demonstrate that the leading power non-perturbative contributions to the scattering amplitudes of this exclusive process are process-independent and can be systematically factorized into universal pion's distribution amplitudes (DAs) and nucleon's generalized parton distributions (GPDs), which are convoluted with corresponding infrared safe and perturbatively calculable short-distance hard parts. The correction to this factorized expression is suppressed by powers of $1/q_T$. We demonstrate quantitatively that this new type of exclusive processes is not only complementary to existing processes for extracting GPDs, but also capable of providing an enhanced sensitivity to the dependence of both DAs and GPDs on the active parton's momentum fraction $x$. We also introduce additional, but the same type of exclusive observables to enhance our capability to explore GPDs, in particular, their $x$-dependence., Comment: 60 pages, 28 figures; extended reference and some discussions, with the main results unchanged

Published

2022

22. Molecules in the carbon-rich protoplanetary nebula CRL 2688

Author

Qiu, Jian-Jie, Zhang, Yong, Zhang, Jiang-Shui, and Nakashima, Jun-ichi

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

We present observations of the carbon-rich protoplanetary nebula (PPN) CRL 2688 made with the Institut de Radioastronomie Millimetrique (IRAM) 30 m telescope in the 3mm and 2mm bands. In total, 196 transition lines belonging to 38 molecular species and isotopologues are detected, among which, to our best knowledge, 153 transition lines and 13 species are the first report for this object. Additionally, in order to contribute to future research, we have collected observational data on the molecular lines of CRL 2688 from the literature and compiled them into a single unified catalog. We find that the molecular abundance of CRL 2688 cannot be explained by the standard model of a circumstellar envelope. The implications of metal-bearing molecules on circumstellar chemistry are discussed., Comment: 55 pages, 10 figures, Accepted for publication in ApJS

Published

2022

23. Complementarity of experimental and lattice QCD data on pion parton distributions

Author

Barry, P. C., Egerer, C., Karpie, J., Melnitchouk, W., Monahan, C., Orginos, K., Qiu, Jian-Wei, Richards, D., Sato, N., Sufian, R. S., and Zafeiropoulos, S.

Subjects

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

Abstract

We extract pion parton distribution functions (PDFs) in a Monte Carlo global QCD analysis of experimental data together with reduced Ioffe time pseudo-distributions and matrix elements of current-current correlators generated from lattice QCD. By including both experimental and lattice QCD data, our analysis rigorously quantifies both the uncertainties of the pion PDFs and systematic effects intrinsic to the lattice QCD observables. The reduced Ioffe time pseudo-distributions significantly decrease the uncertainties on the PDFs, while the current-current correlators are limited by the systematic effects associated with the lattice. Consistent with recent phenomenological determinations, the behavior of the valence quark distribution of the pion at large momentum fraction is found to be $\sim (1-x)^{ \beta_{\rm eff}}$ with $\beta_{\rm eff} \approx 1.0-1.2$., Comment: 47 pages, 15 figures

Published

2022

24. Lattice QCD Calculations of Parton Physics

Author

Constantinou, Martha, Del Debbio, Luigi, Ji, Xiangdong, Lin, Huey-Wen, Liu, Keh-Fei, Monahan, Christopher, Orginos, Kostas, Petreczky, Peter, Qiu, Jian-Wei, Richards, David, Sato, Nobuo, Shanahan, Phiala, Yuan, C. -P., Zhang, Jian-Hui, and Zhao, Yong

Subjects

High Energy Physics - Lattice, High Energy Physics - Phenomenology

Abstract

In this document, we summarize the status and challenges of calculating parton physics in lattice QCD for the US Particle Physics Community Planning Exercise (a.k.a. "Snowmass"). While PDF-moments calculations have been very successful and been continuously improved, new methods have been developed to calculate distributions directly in $x$-space. Many recent lattice studies have been focused on calculating isovector PDFs of the pion and nucleon, learning to control systematics associated with excited-state contamination, renormalization and continuum extrapolations, pion-mass and finite-volume effects, etc. Although in some cases, the lattice results are already competitive with experimental data, to reach the level of precision in a wide range of $x$ for unpolarized nucleon PDFs impactful for future collider physics remains a challenge, and may require exascale supercomputing power. The new theoretical methods open the door for calculating other partonic observables which will be the focus of the experimental program in nuclear physics, including generalized parton distributions and transverse-momentum dependent PDFs. A fruitful interplay between experimental data and lattice-QCD calculations will usher in a new era for parton physics and hadron structure., Comment: 14 pages

Published

2022

25. Nijenhuis tensor and invariant polynomials

Author

Bonechi, Francesco, Qiu, Jian, Tarlini, Marco, and Viviani, Emanuele

Subjects

Mathematics - Symplectic Geometry, High Energy Physics - Theory, Mathematical Physics

Abstract

We discuss the diagonalization problem of the Nijenhuis tensor in a class of Poisson-Nijenhuis structures defined on compact hermitian symmetric spaces. We study its action on the ring of invariant polynomials of a Thimm chain of subalgebras. The existence of $\phi$-minimal representations defines a suitable basis of invariant polynomials that completely solves the diagonalization problem. We prove that such representations exist in the classical cases AIII, BDI, DIII and CI, and do not exist in the exceptional cases EIII and EVII. We discuss a second general construction that in these two cases computes partially the spectrum and hints at a different behavior with respect to the classical cases., Comment: 27 pages, 1 figure, 18 references

Published

2021

26. Leveraging Table Content for Zero-shot Text-to-SQL with Meta-Learning

Author

Chen, Yongrui, Guo, Xinnan, Wang, Chaojie, Qiu, Jian, Qi, Guilin, Wang, Meng, and Li, Huiying

Subjects

Computer Science - Computation and Language

Abstract

Single-table text-to-SQL aims to transform a natural language question into a SQL query according to one single table. Recent work has made promising progress on this task by pre-trained language models and a multi-submodule framework. However, zero-shot table, that is, the invisible table in the training set, is currently the most critical bottleneck restricting the application of existing approaches to real-world scenarios. Although some work has utilized auxiliary tasks to help handle zero-shot tables, expensive extra manual annotation limits their practicality. In this paper, we propose a new approach for the zero-shot text-to-SQL task which does not rely on any additional manual annotations. Our approach consists of two parts. First, we propose a new model that leverages the abundant information of table content to help establish the mapping between questions and zero-shot tables. Further, we propose a simple but efficient meta-learning strategy to train our model. The strategy utilizes the two-step gradient update to force the model to learn a generalization ability towards zero-shot tables. We conduct extensive experiments on a public open-domain text-to-SQL dataset WikiSQL and a domain-specific dataset ESQL. Compared to existing approaches using the same pre-trained model, our approach achieves significant improvements on both datasets. Compared to the larger pre-trained model and the tabular-specific pre-trained model, our approach is still competitive. More importantly, on the zero-shot subsets of both the datasets, our approach further increases the improvements., Comment: Accepted to AAAI 2021

Published

2021

27. A new approach to semi-inclusive deep-inelastic scattering with QED and QCD factorization

Author

Liu, Tianbo, Melnitchouk, W., Qiu, Jian-Wei, and Sato, N.

Subjects

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

Abstract

We present the details of a new factorized approach to semi-inclusive deep-inelastic scattering which treats QED and QCD radiation on equal footing, and provides a systematically improvable approximation to the extraction of transverse momentum dependent parton distributions. We demonstrate how the QED contributions can be well approximated by collinear factorization, and illustrate the application of the factorized approach to QED radiation in inclusive scattering. For semi-inclusive processes, we show how radiation effects prevent a well-defined "photon-nucleon" frame, forcing one to use a two-step process to account for the radiation. We illustrate the utility of the new method by explicit application to the spin-dependent Sivers and Collins asymmetries., Comment: 55 pages, 23 figures, accepted for publication in J. High Energy Phys

Published

2021

28. QCD factorization for hadronic quarkonium production at high $p_T$

Author

Lee, Kyle, Qiu, Jian-Wei, Sterman, George, and Watanabe, Kazuhiro

Subjects

High Energy Physics - Phenomenology, Nuclear Theory

Abstract

Heavy quarkonium production at high transverse momentum ($p_T$) in hadronic collisions is explored in the QCD factorization approach. We find that the leading power in the $1/p_T$ expansion is responsible for high $p_T$ regime, while the next-to-leading power contribution is necessary for the low $p_T$ region. We present the first numerical analysis of the scale evolution of coupled twist-2 and twist-4 fragmentation functions (FFs) for heavy quarkonium production and demonstrate that the QCD factorization approach is capable of describing the $p_T$ spectrum of hadronic $J/\psi$ production at the LHC., Comment: 7 pages, 3 figures. Contribution to the XXVIII International Workshop on Deep-Inelastic Scattering and Related Subjects (DIS2021). SciPost Proceedings

Published

2021

29. Layer Hall effect in a 2D topological Axion antiferromagnet

Author

Gao, Anyuan, Liu, Yu-Fei, Hu, Chaowei, Qiu, Jian-Xiang, Tzschaschel, Christian, Ghosh, Barun, Ho, Sheng-Chin, Bérubé, Damien, Chen, Rui, Sun, Haipeng, Zhang, Zhaowei, Zhang, Xin-Yue, Wang, Yu-Xuan, Wang, Naizhou, Huang, Zumeng, Felser, Claudia, Agarwal, Amit, Ding, Thomas, Tien, Hung-Ju, Akey, Austin, Gardener, Jules, Singh, Bahadur, Watanabe, Kenji, Taniguchi, Takashi, Burch, Kenneth S., Bell, David C., Zhou, Brian B., Gao, Weibo, Lu, Hai-Zhou, Bansil, Arun, Lin, Hsin, Chang, Tay-Rong, Fu, Liang, Ma, Qiong, Ni, Ni, and Xu, Su-Yang

Subjects

Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

While ferromagnets have been known and exploited for millennia, antiferromagnets (AFMs) were only discovered in the 1930s. The elusive nature indicates AFMs' unique properties: At large scale, due to the absence of global magnetization, AFMs may appear to behave like any non-magnetic material; However, such a seemingly mundane macroscopic magnetic property is highly nontrivial at microscopic level, where opposite spin alignment within the AFM unit cell forms a rich internal structure. In topological AFMs, such an internal structure leads to a new possibility, where topology and Berry phase can acquire distinct spatial textures. Here, we study this exciting possibility in an AFM Axion insulator, even-layered MnBi$_2$Te$_4$ flakes, where spatial degrees of freedom correspond to different layers. Remarkably, we report the observation of a new type of Hall effect, the layer Hall effect, where electrons from the top and bottom layers spontaneously deflect in opposite directions. Specifically, under no net electric field, even-layered MnBi$_2$Te$_4$ shows no anomalous Hall effect (AHE); However, applying an electric field isolates the response from one layer and leads to the surprising emergence of a large layer-polarized AHE (~50%$\frac{e^2}{h}$). Such a layer Hall effect uncovers a highly rare layer-locked Berry curvature, which serves as a unique character of the space-time $\mathcal{PT}$-symmetric AFM topological insulator state. Moreover, we found that the layer-locked Berry curvature can be manipulated by the Axion field, E$\cdot$B, which drives the system between the opposite AFM states. Our results achieve previously unavailable pathways to detect and manipulate the rich internal spatial structure of fully-compensated topological AFMs. The layer-locked Berry curvature represents a first step towards spatial engineering of Berry phase, such as through layer-specific moir\'e potential., Comment: A revised version of this article is published in Nature

Published

2021

30. Prospects for quarkonium studies at the high-luminosity LHC

Author

Chapon, Emilien, d'Enterria, David, Ducloue, Bertrand, Echevarria, Miguel G., Gossiaux, Pol-Bernard, Kartvelishvili, Vato, Kasemets, Tomas, Lansberg, Jean-Philippe, McNulty, Ronan, Price, Darren D., Shao, Hua-Sheng, Van Hulse, Charlotte, Winn, Michael, Adam, Jaroslav, An, Liupan, Villar, Denys Yen Arrebato, Bhattacharya, Shohini, Celiberto, Francesco G., Cheshkov, Cvetan, D'Alesio, Umberto, da Silva, Cesar, Ferreiro, Elena G., Flett, Chris A., Flore, Carlo, Garzelli, Maria Vittoria, Gaunt, Jonathan, He, Jibo, Makris, Yiannis, Marquet, Cyrille, Massacrier, Laure, Mehen, Thomas, Mezrag, Cedric, Micheletti, Luca, Nagar, Riccardo, Nefedov, Maxim A., Ozcelik, Melih A., Paul, Biswarup, Pisano, Cristian, Qiu, Jian-Wei, Rajesh, Sangem, Rinaldi, Matteo, Scarpa, Florent, Smith, Maddie, Taels, Pieter, Tee, Amy, Teryaev, Oleg, Vitev, Ivan, Watanabe, Kazuhiro, Yamanaka, Nodoka, Yao, Xiaojun, and Zhang, Yanxi

Subjects

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

Abstract

Prospects for quarkonium-production studies accessible during the upcoming high-luminosity phases of the CERN Large Hadron Collider operation after 2021 are reviewed. Current experimental and theoretical open issues in the field are assessed together with the potential for future studies in quarkonium-related physics. This will be possible through the exploitation of the huge data samples to be collected in proton-proton, proton-nucleus and nucleus-nucleus collisions, both in the collider and fixed-target modes. Such investigations include, among others, those of: (i) J/psi and Upsilon produced in association with other hard particles; (ii) chi(c,b) and eta(c,b) down to small transverse momenta; (iii) the constraints brought in by quarkonia on gluon PDFs, nuclear PDFs, TMDs, GPDs and GTMDs, as well as on the low-x parton dynamics; (iv) the gluon Sivers effect in polarised-nucleon collisions; (v) the properties of the quark-gluon plasma produced in ultra-relativistic heavy-ion collisions and of collective partonic effects in general; and (vi) double and triple parton scatterings., Comment: Latex, 115 pages, 55 figures, 4 tables. v2: Review published in Progress in Particle and Nuclear Physics

Published

2020

31. Rozansky-Witten theory, Localised then Tilted

Author

Qiu, Jian

Subjects

High Energy Physics - Theory, Mathematics - Algebraic Geometry, Mathematics - Symplectic Geometry

Abstract

The paper has two parts, in the first part, we apply the localisation technique to the Rozansky-Witten theory on compact HyperK\"ahler targets. We do so via first reformulating the theory as some supersymmetric sigma-model. We obtain the exact formula for the partition function with Wilson loops on $S^1\times\Sigma_g$ and the lens spaces, the results match with earlier computations using Feynman diagrams on K3. The second part is motivated by a very curious preprint \cite{Gukov:2020lqm}, where the equivariant index formula for the dimension of the Hilbert space the theory is interpreted as a kind of Verlinde formula. In this interpretation, the fixed points of the target HyperK\"ahler geometry correspond to certain 'states'. In the second half of the paper we extend the formalism of part one to incorporate equivariance on the target geometry. For certain non-compact hyperK\"ahler geometry, we can apply the tilting theory to the derived category of coherent sheaves, whose objects label the Wilson loops, allowing us to pick a 'basis' for the latter. We can then compute the fusion products in this basis and we show that the objects that have diagonal fusion rules are intimately related to the fixed points of the geometry. Using these objects as basis to compute the dimension of the Hilbert space leads back to the Verlinde formula, thus answering the question that motivated the paper., Comment: 60 pages

Published

2020

32. Confronting lattice parton distributions with global QCD analysis

Author

Bringewatt, J., Sato, N., Melnitchouk, W., Qiu, Jian-Wei, Steffens, F., and Constantinou, M.

Subjects

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

Abstract

We present the first Monte Carlo based global QCD analysis of spin-averaged and spin-dependent parton distribution functions (PDFs) that includes nucleon isovector matrix elements in coordinate space from lattice QCD. We investigate the degree of universality of the extracted PDFs when the lattice and experimental data are treated under the same conditions within the Bayesian likelihood analysis. For the unpolarized sector, we find rather weak constraints from the current lattice data on the phenomenological PDFs, and difficulties in describing the lattice matrix elements at large spatial distances. In contrast, for the polarized PDFs we find good agreement between experiment and lattice data, with the latter providing significant constraints on the spin-dependent isovector quark and antiquark distributions., Comment: 23 pages, 4 figures

Published

2020

33. Factorized approach to radiative corrections for inelastic lepton-hadron collisions

Author

Liu, Tianbo, Melnitchouk, W., Qiu, Jian-Wei, and Sato, N.

Subjects

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

Abstract

We propose a factorized approach to QED radiative corrections for inclusive and semi-inclusive deep-inelastic scattering to systematically account for QED and QCD radiation contributions to both processes on equal footing. This is achieved by utilizing factorization to resum logarithmically enhanced QED radiation into universal lepton distribution and fragmentation (or jet) functions. Numerical simulations suggest that the QED effects induced by the rotational distortion of the hadron transverse momentum, arising from the mismatch between the experimental Breit frame and the true photon-hadron frame, can be as large as 50\% for moderate $Q$, and become increasingly important for large transverse momenta. Our framework provides a uniform treatment of radiative effects for extracting three-dimensional hadron structure from high-energy lepton-hadron scattering at current and future facilities, such as the Electron-Ion Collider., Comment: 6 pages, 3 figures, accepted for publication in Phys. Rev. D

Published

2020

34. Extraction of Next-to-Next-to-Leading-Order PDFs from Lattice QCD Calculations

Author

Li, Zheng-Yang, Ma, Yan-Qing, and Qiu, Jian-Wei

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Lattice

Abstract

We present for the first time complete next-to-next-to-leading-order coefficient functions to match flavor non-singlet quark correlation functions in position space, which are calculable in lattice QCD, to parton distribution functions (PDFs). Using PDFs extracted from experimental data and our calculated matching coefficients, we predict valence-quark correlation functions that can be confronted by lattice QCD calculations. The uncertainty of our predictions is greatly reduced with higher order matching coefficients. By performing Fourier transformation, we also obtain matching coefficients for corresponding quasi-PDFs and pseudo-PDFs. Our method of calculations can be readily generalized to evaluate the matching coefficients for sea-quark and gluon correlation functions, putting the program to extract partonic structure of hadrons from lattice QCD calculations to be comparable with and complementary to that from experimental measurements., Comment: 14 pages, 2 figures; analytical matching coefficients for quark correlation functions, quasi-PDFs and pseudo-PDFs added; version to be published in PRL

Published

2020

35. Parton distributions and lattice QCD calculations: toward 3D structure

Author

Constantinou, Martha, Courtoy, Aurore, Ebert, Markus A., Engelhardt, Michael, Giani, Tommaso, Hobbs, Tim, Hou, Tie-Jiun, Kusina, Aleksander, Kutak, Krzysztof, Liang, Jian, Lin, Huey-Wen, Liu, Keh-Fei, Liuti, Simonetta, Mezrag, Cédric, Nadolsky, Pavel, Nocera, Emanuele R., Olness, Fred, Qiu, Jian-Wei, Radici, Marco, Radyushkin, Anatoly, Rajan, Abha, Rogers, Ted, Rojo, Juan, Schierholz, Gerrit, Yuan, C. -P., Zhang, Jian-Hui, and Zhang, Rui

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Lattice

Abstract

The strong force which binds hadrons is described by the theory of Quantum Chromodynamics (QCD). Determining the character and manifestations of QCD is one of the most important and challenging outstanding issues necessary for a comprehensive understanding of the structure of hadrons. Within the context of the QCD parton picture, the Parton Distribution Functions (PDFs) have been remarkably successful in describing a wide variety of processes. However, these PDFs have generally been confined to the description of collinear partons within the hadron. New experiments and facilities provide the opportunity to additionally explore the transverse structure of hadrons which is described by Generalized Parton Distributions (GPDs) and Transverse Momentum Dependent Parton Distribution Functions (TMD PDFs). In our previous review, we compared and contrasted the two main approaches used to determine the collinear PDFs: the first based on perturbative QCD factorization theorems, and the second based on lattice QCD calculations. In the present report, we provide an update of recent progress on the collinear PDFs, and also expand the scope to encompass the generalized PDFs (GPDs and TMD PDFs). We review the current state of the various calculations, and consider what new data might be available in the near future. We also examine how a shared effort can foster dialog between the PDF and Lattice QCD communities, and yield improvements for these generalized PDFs., Comment: 2020 PDFLattice Report, 64 pages, 34 figures

Published

2020

36. Exploring $J/\psi$ production mechanism at the future Electron-Ion Collider

Author

Qiu, Jian-Wei, Wang, Xiang-Peng, and Xing, Hongxi

Subjects

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

Abstract

We propose to use transverse momentum $p_T$ distribution of $J/\psi$ production at the future Electron Ion Collider (EIC) to explore the production mechanism of heavy quarkonia in high energy collisions. We apply QCD and QED collinear factorization to the production of a $c\bar{c}$ pair at high $p_T$, and non-relativistic QCD factorization to the hadronization of the pair to a $J/\psi$. We evaluate $J/\psi$ $p_T$-distribution at both leading and next-to-leading order in strong coupling, and show that production rates for various color-spin channels of a $c\bar{c}$ pair in electron-hadron collisions are very different from that in hadron-hadron collisions, which provides a strong discriminative power to determine various transition rates for the pair to become a $J/\psi$. We predict that the $J/\psi$ produced in electron-hadron collisions is likely unpolarized, and the production is an ideal probe for gluon distribution of colliding hadron (or nucleus). We find that the $J/\psi$ production is dominated by the color-octet channel, providing an excellent probe to explore the gluon medium in large nuclei at the EIC., Comment: 6 pages, 6 figures

Published

2020

37. Intrinsic Transverse Momentum and Evolution in Weighted Spin Asymmetries

Author

Qiu, Jian-Wei, Rogers, Ted C., and Wang, Bowen

Subjects

High Energy Physics - Phenomenology, Nuclear Theory

Abstract

The transverse momentum dependent (TMD) and collinear higher twist theoretical factorization frameworks are the most frequently used approaches to describing spin dependent hard cross sections weighted by and integrated over transverse momentum. Of particular interest is the contribution from small transverse momentum associated with the target bound state. In phenomenological applications, this contribution is often investigated using transverse momentum weighted integrals that sharply regulate the large transverse momentum contribution, for example with Gaussian parametrizations. Since the result is a kind of hybrid of TMD and collinear (inclusive) treatments, it is important to establish if and how the formalisms are related in applications to weighted integral observables. The suppression of a large transverse momentum tail, for example, can potentially affect the type of evolution that is applicable. We find that a naive version of a widely used identity relating the $k_T^2$-weighted and integrated Sivers TMD function to a renormalized twist-3 function has strongly ambiguous ultraviolet contributions, and that corrections to it are not necessarily perturbatively suppressed. We discuss the implications for applications, arguing in particular that the relevant evolution for transverse momentum weighted and integrated cross sections with sharp effective large transverse momentum cutoffs is of the TMD form rather than the standard renormalization group evolution of collinear correlation functions., Comment: Version appearing in physical review D; fixed grammatical errors

Published

2020

38. 7D supersymmetric Yang-Mills on hypertoric 3-Sasakian manifolds

Author

Iakovidis, Nikolaos, Qiu, Jian, Rocén, Andreas, and Zabzine, Maxim

Subjects

High Energy Physics - Theory, Mathematical Physics, Mathematics - Symplectic Geometry

Abstract

We study 7D maximally supersymmetric Yang-Mills theory on 3-Sasakian manifolds. For manifolds whose hyper-K\"ahler cones are hypertoric we derive the perturbative part of the partition function. The answer involves a special function that counts integer lattice points in a rational convex polyhedral cone determined by hypertoric data. This also gives a more geometric structure to previous enumeration results of holomorphic functions in the literature. Based on physics intuition, we provide a factorisation result for such functions. The full proof of this factorisation using index calculations will be detailed in a forthcoming paper., Comment: 33 pages

Published

2020

39. Predictive power of transverse-momentum-dependent distributions

Author

Grewal, Manvir, Kang, Zhong-Bo, Qiu, Jian-Wei, and Signori, Andrea

Subjects

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

Abstract

We investigate the predictive power of transverse-momentum-dependent (TMD) distributions as a function of the light-cone momentum fraction $x$ and the hard scale $Q$ defined by the process. We apply the saddle point approximation to the unpolarized quark and gluon transverse momentum distributions and evaluate the position of the saddle point as a function of the kinematics. We determine quantitatively that the predictive power for an unpolarized transverse momentum distribution is maximal in the large-$Q$ and small-$x$ region. For cross sections the predictive power of the TMD factorization formalism is generally enhanced by considering the convolution of two distributions, and we explicitly consider the case of $Z$ and $H^0$ boson production. In the kinematic regions where the predictive power is not maximal, the distributions are sensitive to the non-perturbative hadron structure. Thus, these regions are critical for investigating hadron tomography in a three-dimensional momentum space., Comment: 25 pages - published version

Published

2020

40. Probing Nucleons and Nuclei in High Energy Collisions

Author

Aidala, Christine A., Aschenauer, Elke, Aslan, Fatma, Bacchetta, Alessandro, Balitsky, Ian, Benic, Sanjin, Bhattacharya, Shohini, Boglione, Mariaelena, Burkardt, Matthias, Cammarota, Justin, Chirilli, Giovanni A., Cocuzza, Christopher, Courtoy, Aurore, de Florian, Daniel, Di Nezza, Pasquale, Dumitru, Adrian, Fucini, Sara, Fukushima, Kenji, Furletova, Yulia, Gamberg, Leonard, Garcia-Montero, Oscar, Gelis, François, Guzey, Vadim, Hatta, Yoshitaka, Hautmann, Francesco, Hobbs, Timothy J., Horn, Tanja, Iancu, Edmond, Joosten, Sylvester, Kang, Zhong-Bo, Kishore, Raj, Kovchegov, Yuri V., Kroll, Peter, Kumerički, Krešimir, Kutak, Krzysztof, Lappi, Tuomas, Lin, Huey-Wen, Liu, Xiaohui, Liuti, Simonetta, Lorcé, Cédric, Mäntysaari, Heikki, Marquet, Cyrille, Makris, Yiannis, Mamo, Kiminad A., Mehtar-Tani, Yacine, Metz, Andreas, Meziani, Zein-Eddine, Miller, Gerald A., Miller, Joshua, Mukherjee, Asmita, Nadolsky, Pavel M., Olness, Fredrick I., Pasquini, Barbara, Pire, Bernard, Pisano, Cristian, Pitonyak, Daniel, Polyakov, Maxim V., Prokudin, Alexei, Qiu, Jian-Wei, Radici, Marco, Rajan, Abha, Rajesh, Sangem, Rinaldi, Matteo, Roy, Kaushik, Royon, Christophe, Sato, Nobuo, Schlegel, Marc, Schnell, Gunar, Schweitzer, Peter, Scopetta, Sergio, Seidl, Ralf, Semenov-Tian-Shansky, Kirill, Signori, Andrea, Sokhan, Daria, Stasto, Anna M., Szymanowski, Lech, Tarasov, Andrey, Triantafyllopoulos, Dionysios, Ullrich, Thomas, Venugopalan, Raju, Vitev, Ivan, Vogelsang, Werner, Vossen, Anselm, Wang, Bo-Ting, Wallon, Samuel, Watanabe, Kazuhiro, Weiss, Christian, Xiao, Bo-Wen, Yee, Ho-Ung, and Zhao, Yong

Subjects

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

Abstract

This volume is a collection of contributions for the 7-week program "Probing Nucleons and Nuclei in High Energy Collisions" that was held at the Institute for Nuclear Theory in Seattle, WA, USA, from October 1 until November 16, 2018. The program was dedicated to the physics of the Electron Ion Collider (EIC), the world's first polarized electron-nucleon (ep) and electron-nucleus (eA) collider to be constructed in the USA. These proceedings are organized by chapters, corresponding to the weeks of the program: Week I, Generalized parton distributions; Week II, Transverse spin and TMDs; Week III, Longitudinal spin; Week IV, Symposium week; Weeks V & VI, eA collisions; Week VII, pA and AA collisions. We hope these proceedings will be useful to readers as a compilation of EIC-related science at the end of the second decade of the XXI century., Comment: Electron Ion Collider, INT 18-3 Program. Published by World Scientific. Duplicates content of arXiv:1912.10965, arXiv:1912.10724, arXiv:1910.03006, arXiv:1910.07982, arXiv:1912.13397, arXiv:1910.01979, arXiv:2001.07862, arXiv:2001.03700, arXiv:1910.01030, arXiv:1910.01273, arXiv:1912.13020, arXiv:1910.06003, arXiv:2001.03655, arXiv:1909.12591, arXiv:1909.09809, arXiv:1910.04806, arXiv:2001.05978

Published

2020

41. QCD factorization and universality of jet cross sections in heavy-ion collisions

Author

Qiu, Jian-Wei, Ringer, Felix, Sato, Nobuo, and Zurita, Pia

Subjects

High Energy Physics - Phenomenology, Nuclear Experiment, Nuclear Theory

Abstract

We review a recently proposed phenomenological framework to establish the notions of QCD factorization and universality of jet cross sections in the heavy-ion environment. First results of a global analysis of the nuclear modification factor of inclusive jets are presented where we extract medium modified jet functions using a Monte Carlo sampling approach. We observe that gluon jets are significantly more suppressed than quark jets. In addition, we study the jet radius dependence of the inclusive jet cross section in heavy-ion collisions and comment on a recent measurement from CMS. By considering for example jet substructure observables it will be possible to test the universality of the extracted medium jet functions. We thus expect that the presented results will eventually allow for extractions of medium properties with a reduced model bias., Comment: 4 pages, 2 figures, XXVIIIth International Conference on Ultrarelativistic Nucleus-Nucleus Collisions (Quark Matter 2019)

Published

2020

42. Pion valence quark distribution from current-current correlation in lattice QCD

Author

Sufian, Raza Sabbir, Egerer, Colin, Karpie, Joseph, Edwards, Robert G., Joó, Bálint, Ma, Yan-Qing, Orginos, Kostas, Qiu, Jian-Wei, and Richards, David G.

Subjects

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

Abstract

We extract the pion valence quark distribution $q^\pi_{\rm v}(x)$ from lattice QCD (LQCD) calculated matrix elements of spacelike correlations of one vector and one axial vector current analyzed in terms of QCD collinear factorization, using a new short-distance matching coefficient calculated to one-loop accuracy. We derive the Ioffe time distribution of the two-current correlations in the physical limit by investigating the finite lattice spacing, volume, quark mass, and higher-twist dependencies in a simultaneous fit of matrix elements computed on four gauge ensembles. We find remarkable consistency between our extracted $q^\pi_{\rm v}(x)$ and that obtained from experimental data across the entire $x$-range. Further, we demonstrate that the one-loop matching coefficient relating the LQCD matrix computed in position space to the $q_{\rm v}^{\pi}(x)$ in momentum space has well-controlled behavior with Ioffe time. This justifies that LQCD calculated current-current correlations are good observables for extracting partonic structures by using QCD factorization, which complements to the global effort to extract partonic structure from experimental data., Comment: Published version, Physical Review D

Published

2020

43. Generalised K\'ahler Structure on $\mathbb{C}P^2$ and Elliptic Functions

Author

Bonechi, Francesco, Qiu, Jian, and Tarlini, Marco

Subjects

Mathematics - Differential Geometry, High Energy Physics - Theory, Mathematics - Symplectic Geometry

Abstract

We construct a toric generalised K\"ahler structure on $\mathbb{C}P^2$ and show that the various structures such as the complex structure, metric etc are expressed in terms of certain elliptic functions. We also compute the generalised K\"ahler potential in terms of integrals of elliptic functions., Comment: 32 pages, 2 figures

Published

2019

44. Equivariant Batalin-Vilkovisky formalism

Author

Bonechi, Francesco, Cattaneo, Alberto S., Qiu, Jian, and Zabzine, Maxim

Subjects

High Energy Physics - Theory, Mathematical Physics, Mathematics - Quantum Algebra

Abstract

We study an equivariant extension of the Batalin-Vilkovisky formalism for quantizing gauge theories. Namely, we introduce a general framework to encompass failures of the quantum master equation, and we apply it to the natural equivariant extension of AKSZ solutions of the classical master equation (CME). As examples of the construction, we recover the equivariant extension of supersymmetric Yang-Mills in 2d and of Donaldson-Witten theory., Comment: 22 pages, refs added, typos corrected, the final published version in J.Geom.Phys

Published

2019

45. Power corrections in semi-inclusive deep inelastic scatterings at fixed target energies

Author

Liu, Tianbo and Qiu, Jian-Wei

Subjects

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

Abstract

The COMPASS collaboration published precise data on production cross section of charged hadrons in lepton-hadron semi-inclusive deep inelastic scattering, showing almost an order of magnitude larger than next-to-leading order QCD calculations when $P_{h_T}$ and $z_h$ are sufficiently large. We explore the role of power corrections to the theoretical calculations, and quantitatively demonstrate that the power corrections are extremely important for these data when the final-state multiplicity is low and the production kinematics is near the edge of phase space. Our finding motivates more detailed studies on power corrections for upcoming experiments at Jefferson Lab, as well as the future Electron-Ion Collider., Comment: 12 pages, 10 figures, matching the version published in Physical Review D

Published

2019

46. Transversally Elliptic Complex and Cohomological Field Theory

Author

Festuccia, Guido, Qiu, Jian, Winding, Jacob, and Zabzine, Maxim

Subjects

High Energy Physics - Theory, Mathematics - Differential Geometry

Abstract

This work is a continuation of our previous paper arXiv:1812.06473 where we have constructed ${\cal N}=2$ supersymmetric Yang-Mills theory on 4D manifolds with a Killing vector field with isolated fixed points. In this work we expand on the mathematical aspects of the theory, with a particular focus on its nature as a cohomological field theory. The well-known Donaldson-Witten theory is a twisted version of ${\cal N}=2$ SYM and can also be constructed using the Atiyah-Jeffrey construction. This theory is concerned with the moduli space of anti-self-dual gauge connections, with a deformation theory controlled by an elliptic complex. More generally, supersymmetry requires considering configurations that look like either instantons or anti-instantons around fixed points, which we call flipping instantons. The flipping instantons of our 4D ${\cal N}=2$ theory are derived from the 5D contact instantons. The novelty is that their deformation theory is controlled by a transversally elliptic complex, which we demonstrate here. We repeat the Atiyah-Jeffrey construction in the equivariant setting and arrive at the Lagrangian (an equivariant Euler class in the relevant field space) that was also obtained from our previous work arXiv:1812.06473. We show that the transversal ellipticity of the deformation complex is crucial for the non-degeneracy of the Lagrangian and the calculability of the theory. Our construction is valid on a large class of quasi toric 4 manifolds., Comment: 88 pages, typos corrected, the final version to be published in JGP

Published

2019

47. Nucleon Structure from Lattice QCD Calculations

Author

Qiu, Jian-Wei

Subjects

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

Abstract

Parton distribution and correlation functions describe the relation between a hadron and the quarks and gluons (or collectively, the partons) within it, and carry rich information on hadron's partonic structure that cannot be calculated by QCD perturbation theory. In this talk, I will review what lattice QCD can and cannot do for calculating the parton distribution and correlation functions, and the new ideas and efforts around the world to explore nucleon structure from lattice QCD calculations by combining the strength of both lattice QCD and perturbative QCD in such a way that is complementary to our on-going effort to extract these fundamental functions from experimental data., Comment: 8 pages, 5 figures, to be published in the proceedings of the 8th International Conference on Quarks and Nuclear Physics, November 13-17, 2019, Tsukuba, Japan

Published

2019

48. Factorization of jet cross sections in heavy-ion collisions

Author

Qiu, Jian-Wei, Ringer, Felix, Sato, Nobuo, and Zurita, Pia

Subjects

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

Abstract

We propose a new phenomenological approach to establish QCD factorization of jet cross sections in the heavy-ion environment. Starting from a factorization formalism in proton-proton collisions, we introduce medium modified jet functions to capture the leading interaction of jets with the hot and dense QCD medium. A global analysis using a Monte Carlo sampling approach is performed in order to reliably determine the new jet functions from the nuclear modification factor of inclusive jets at the LHC. We find that gluon jets are significantly more suppressed due to the presence of the medium than quark jets. In addition, we observe that the jet radius dependence is directly related to the relative suppression of quark and gluon jets. Our approach may help to improve the extraction of medium properties from data., Comment: 6 pages, 4 figures

Published

2019

49. Pion Valence Quark Distribution from Matrix Element Calculated in Lattice QCD

Author

Sufian, Raza Sabbir, Karpie, Joseph, Egerer, Colin, Orginos, Kostas, Qiu, Jian-Wei, and Richards, David G.

Subjects

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

Abstract

We present the first exploratory lattice QCD calculation of the pion valence quark distribution extracted from spatially separated current-current correlations in coordinate space. We show that an antisymmetric combination of vector and axial-vector currents provides direct information on the pion valence quark distribution. Using the collinear factorization approach, we calculate the perturbative tree-level kernel for this current combination and extract the pion valence distribution. The main goal of this article is to demonstrate the efficacy of this general lattice QCD approach in the reliable extraction of parton distributions. With controllable power corrections and a good understanding of the lattice systematics, this method has the potential to serve as a complementary to the many efforts to extract parton distributions in global analyses from experimentally measured cross sections. We perform our calculation on an ensemble of 2+1 flavor QCD using the isotropic-clover fermion action, with lattice dimensions $32^3\times 96$ at a lattice spacing \mbox{$a=0.127$ fm} and the quark mass equivalent to a pion mass $m_\pi \simeq 416$ MeV., Comment: Version to appear in Physical Review D, 13 pages, 7 figures

Published

2019

50. Observing zero-field spin dynamics with spin noise in a pi-pulse modulated field

Author

Zhang, Guiying, Wen, Ya, Qiu, Jian, and Zhao, Kaifeng

Subjects

Physics - Atomic Physics

Abstract

Spin noise spectroscopic study of spin dynamics in a zero magnetic field is commonly frustrated by the dominating 1/f noise. We show that in a pi-pulse modulated magnetic field, spin noise spectrum centered one-half of the field modulation frequency reveals spin dynamics in zero-fields, free of any low-frequency noises., Comment: 5 pages, 8 figures

Published

2019