Your search keyword '"Gao, Anjie"' showing total 19 results

1. A Collinear Perspective on the Regge Limit

Author

Gao, Anjie, Moult, Ian, Raman, Sanjay, Ridgway, Gregory, and Stewart, Iain W.

Subjects

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

Abstract

The high energy (Regge) limit provides a playground for understanding all loop structures of scattering amplitudes, and plays an important role in the description of many phenomenologically relevant cross-sections. While well understood in the planar limit, the structure of non-planar corrections introduces many fascinating complexities, for which a general organizing principle is still lacking. We study the structure of multi-reggeon exchanges in the context of the effective field theory for forward scattering, and derive their factorization into collinear operators (impact factors) and soft operators. We derive the structure of the renormalization group consistency equations in the effective theory, showing how the anomalous dimensions of the soft operators are related to those of the collinear operators, allowing us to derive renormalization group equations in the Regge limit purely from a collinear perspective. The rigidity of the consistency equations provides considerable insight into the all orders organization of Regge amplitudes in the effective theory, as well as its relation to other approaches. Along the way we derive a number of technical results that improve the understanding of the effective theory. We illustrate this collinear perspective by re-deriving all the standard BFKL equations for two-Glauber exchange from purely collinear calculations, and we show that this perspective provides a number of conceptual and computational advantages as compared to the standard view from soft or Glauber physics. We anticipate that this formulation in terms of collinear operators will enable a better understanding of the relation between BFKL and DGLAP in gauge theories, and facilitate the analysis of renormalization group evolution equations describing Reggeization beyond next-to-leading order., Comment: 48 pages + references, 10 figures; v2: JHEP version; v3: fix references

Published

2024

2. The Transverse Energy-Energy Correlator at Next-to-Next-to-Next-to-Leading Logarithm

Author

Gao, Anjie, Li, Hai Tao, Moult, Ian, and Zhu, Hua Xing

Subjects

High Energy Physics - Phenomenology, Nuclear Theory

Abstract

We present an operator based factorization formula for the transverse energy-energy correlator in the back-to-back (dijet) region, and uncover its remarkable perturbative simplicity and relation to transverse momentum dynamics. This simplicity enables us to achieve next-to-next-to-next-to leading logarithmic (N$^3$LL) accuracy for a hadron collider dijet event shape for the first time. Our factorization formula applies to color singlet, $W/Z/\gamma$ + jet, and dijet production, providing a natural generalization of transverse momentum observables to one- and two-jet final states. This provides a laboratory for precision studies of QCD and transverse momentum dynamics at hadron colliders, as well as an opportunity for understanding factorization and its violation in a perturbatively well controlled setting., Comment: 54 pages, 12 figures

Published

2023

3. The transverse energy-energy correlator at next-to-next-to-next-to-leading logarithm

Author

Gao, Anjie, Li, Hai Tao, Moult, Ian, and Zhu, Hua Xing

Published

2024

4. A Better Angle on Hadron Transverse Momentum Distributions at the EIC

Author

Gao, Anjie, Michel, Johannes K. L., Stewart, Iain W., and Sun, Zhiquan

Subjects

High Energy Physics - Phenomenology, Nuclear Experiment, Nuclear Theory

Abstract

We propose an observable $q_*$ sensitive to transverse momentum dependence (TMD) in $e N \to e h X$, with $q_*/E_N$ defined purely by lab-frame angles. In 3D measurements of confinement and hadronization this resolves the crippling issue of accurately reconstructing small transverse momentum $P_{hT}$. We prove factorization for $\mathrm{d} \sigma_h / \mathrm{d}q_*$ for $q_*\ll Q$ with standard TMD functions, enabling $q_*$ to substitute for $P_{hT}$. A double-angle reconstruction method is given which is exact to all orders in QCD for $q_*\ll Q$. $q_*$ enables an order-of-magnitude improvement in the expected experimental resolution at the EIC., Comment: 5 pages + 4 figures, 9 pages of supplemental material

Published

2022

5. Factorization for Azimuthal Asymmetries in SIDIS at Next-to-Leading Power

Author

Ebert, Markus A., Gao, Anjie, and Stewart, Iain W.

Subjects

High Energy Physics - Phenomenology, Nuclear Theory

Abstract

Differential measurements of the semi-inclusive deep inelastic scattering (SIDIS) process with polarized beams provide important information on the three-dimensional structure of hadrons. Among the various observables are azimuthal asymmetries that start at subleading power, and which give access to novel transverse momentum dependent distributions (TMDs). Theoretical predictions for these distributions are currently based on the parton model rather than a rigorous factorization based analysis. Working under the assumption that leading power Glauber interactions do not spoil factorization at this order, we use the Soft Collinear Effective Theory to derive a complete factorization formula for power suppressed hard scattering effects in SIDIS. This yields generalized definitions of the TMDs that depend on two longitudinal momentum fractions (one of them only relevant beyond tree level), and a complete proof that only the same leading power soft function appears and can be absorbed into the TMD distributions at this order. We also show that perturbative corrections can be accounted for with only one new hard coefficient. Factorization formulae are given for all spin dependent structure functions which start at next-to-leading power. Prospects for improved subleading power predictions that include resummation are discussed., Comment: 118 pages, 1 figure; Update fixing typos and with complex C^(1) [JHEP erratum version]

Published

2021

6. The Transverse Energy-Energy Correlator in the Back-to-Back Limit

Author

Gao, AnJie, Li, Hai Tao, Moult, Ian, and Zhu, Hua Xing

Subjects

High Energy Physics - Phenomenology, Nuclear Theory

Abstract

We present an operator based factorization formula for the transverse energy-energy correlator (TEEC) hadron collider event shape in the back-to-back (dijet) limit. This factorization formula exhibits a remarkably symmetric form, being a projection onto a scattering plane of a more standard transverse momentum dependent factorization. Soft radiation is incorporated through a dijet soft function, which can be elegantly obtained to next-to-next-to-leading order (NNLO) due to the symmetries of the problem. We present numerical results for the TEEC resummed to next-to-next-to-leading logarithm (NNLL) matched to fixed order at the LHC. Our results constitute the first NNLL resummation for a dijet event shape observable at a hadron collider, and the first analytic result for a hadron collider dijet soft function at NNLO. We anticipate that the theoretical simplicity of the TEEC observable will make it indispensable for precision studies of QCD at the LHC, and as a playground for theoretical studies of factorization and its violation., Comment: 5 pages + Supplemental Material

Published

2019

7. Erratum to: Factorization for azimuthal asymmetries in SIDIS at next-to-leading power

Author

Ebert, Markus A., Gao, Anjie, and Stewart, Iain W.

Published

2023

8. Precision QCD Event Shapes at Hadron Colliders: The Transverse Energy-Energy Correlator in the Back-to-Back Limit

Author

Gao, AnJie, Li, Hai Tao, Moult, Ian, and Zhu, Hua Xing

Subjects

Nuclear and Plasma Physics, Particle and High Energy Physics, Mathematical Physics, Mathematical Sciences, Physical Sciences, Engineering, General Physics, Mathematical sciences, Physical sciences

Abstract

We present an operator-based factorization formula for the transverse energy-energy correlator (TEEC) hadron collider event shape in the back-to-back (dijet) limit. This factorization formula exhibits a remarkably symmetric form, being a projection onto a scattering plane of a more standard transverse momentum dependent factorization. Soft radiation is incorporated through a dijet soft function, which can be elegantly obtained to next-to-next-to-leading order (NNLO) due to the symmetries of the problem. We present numerical results for the TEEC resummed to next-to-next-to-leading logarithm (NNLL) matched to fixed order at the LHC. Our results constitute the first NNLL resummation for a dijet event shape observable at a hadron collider, and the first analytic result for a hadron collider dijet soft function at NNLO. We anticipate that the theoretical simplicity of the TEEC observable will make it indispensable for precision studies of QCD at the LHC, and as a playground for theoretical studies of factorization and its violation.

Published

2019

9. Factorization for azimuthal asymmetries in SIDIS at next-to-leading power

Author

Ebert, Markus A., Gao, Anjie, and Stewart, Iain W.

Published

2022

10. Better angle on hadron transverse momentum distributions at the Electron-Ion Collider

Author

Gao, Anjie, primary, Michel, Johannes K. L., additional, Stewart, Iain W., additional, and Sun, Zhiquan, additional

Published

2023

11. Adaptive Background-Updating and Target Detection in Motion State

Author

Mao, Zheng, Gao, Anjie, Wei, Wei, Sun, Legong, Chen, Silin, and Lee, Gary, editor

Published

2012

12. Factorization for azimuthal asymmetries in SIDIS at next-to-leading power

Author

Massachusetts Institute of Technology. Center for Theoretical Physics, Ebert, Markus A., Gao, Anjie, Stewart, Iain W., Massachusetts Institute of Technology. Center for Theoretical Physics, Ebert, Markus A., Gao, Anjie, and Stewart, Iain W.

Abstract

Differential measurements of the semi-inclusive deep inelastic scattering (SIDIS) process with polarized beams provide important information on the three-dimensional structure of hadrons. Among the various observables are azimuthal asymmetries that start at subleading power, and which give access to novel transverse momentum dependent distributions (TMDs). Theoretical predictions for these distributions are currently based on the parton model rather than a rigorous factorization based analysis. Working under the assumption that leading power Glauber interactions do not spoil factorization at this order, we use the Soft Collinear Effective Theory to derive a complete factorization formula for power suppressed hard scattering effects in SIDIS. This yields generalized definitions of the TMDs that depend on two longitudinal momentum fractions (one of them only relevant beyond tree level), and a complete proof that only the same leading power soft function appears and can be absorbed into the TMD distributions at this order. We also show that perturbative corrections can be accounted for with only one new hard coefficient. Factorization formulae are given for all spin dependent structure functions which start at next-to-leading power. Prospects for improved subleading power predictions that include resummation are discussed.

Published

2022

13. Adaptive Background-Updating and Target Detection in Motion State

Author

Mao, Zheng, primary, Gao, Anjie, additional, Wei, Wei, additional, Sun, Legong, additional, and Chen, Silin, additional

Published

2011

14. Study of Intelligent Robot for Insulators Based on Electric Field Method

Author

Yu Hongliang, Wen Sheng, Yang Guiyou, Lang Qingkai, Fangyu Gao, Gao Anjie, Zhao Jianjun, Guangyu Yang, and Wang Wei

Subjects

business.industry, Computer science, Electrical engineering, Insulator (electricity), Hardware_PERFORMANCEANDRELIABILITY, Porcelain insulator, Photoelectric effect, Electromagnetic interference, law.invention, Robot control, Smart grid, Electric power transmission, law, Electric field, Electromagnetic shielding, Hardware_INTEGRATEDCIRCUITS, Robot, Condensed Matter::Strongly Correlated Electrons, Electric power industry, business, Remote control, Voltage

Abstract

Insulators are used for insulation and support of power lines. For this reason, the inspection is necessary to improve the reliability of the live-line. This paper aims to solve some key technical problems of insulator string detection in overhead transmission line, and designs an insulator string detection robot with good performance and suitable for transmission line environment in china. The quality criteria of insulators for the deep research of W and electric power industry standard insulators and the existing detection methods; the insulator string at the same time to carry out resistance detection, field detection, visual inspection and hydrophobicity detection, to achieve a comprehensive evaluation of the performance of porcelain insulator. The method can comprehensively reflect the insulator state and reduce the misjudgment probability of insulator detection. Realize remote data remote control of robot, remote video real-time transmission, and analysis and storage of measurement value. Through the research on electromagnetic interference of UHV 1000kV voltage level, put forward the robot control interface circuit, multilayer shielding shell photoelectric isolation and control system and the robot is such measures, successfully overcome the electromagnetic interference problem. The application of the insulator string detecting robot reduces the skillful labor intensity of the insulator string detection, ensures the stability and reliability of the power grid operation, and promotes the development of the power robot technology and the construction of the smart grid.

Published

2017

15. Study of Intelligent Robot for Insulators Based on Electric Field Method

Author

Wen, Sheng, primary, Gao, Fangyu, additional, Zhao, Jianjun, additional, Yu, Hongliang, additional, Wang, Wei, additional, Gao, Anjie, additional, Lang, Qingkai, additional, Yang, Guiyou, additional, and Yang, Guangyu, additional

Published

2017

16. Video Image Mosaics in Real-Time Based on SIFT

Author

Mao Zheng, Gao Anjie, Qi Feng, and Yang Ping

Subjects

Pixel, business.industry, Computer science, Computation, Feature extraction, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Scale-invariant feature transform, Pattern recognition, Image segmentation, Robustness (computer science), Computer vision, Algorithm design, Artificial intelligence, Invariant (mathematics), business

Abstract

This paper proposes the method of video image mosaics in real-time based on Scale Invariant Feature Transform (SIFT) algorithm. The real-time processing is great significant for the video image mosaics. SIFT is the efficient method for extracting distinctive invariant features from images. But it costs so much computation time that it can’t meet the real-time processing demand. Therefore, an improved SIFT approach is proposed in this paper to accelerate its execution. The result shows that the method is validated and meets the real-time processing computation demand.

Published

2010

17. Small target detection in infrared clutter using dark channel prior and improved local entropy

Author

Mao, Zheng, primary, Sun, Le-gong, additional, Mao, Yuxin, additional, Gao, Anjie, additional, and Qin, Yue, additional

Published

2011

18. Video Image Mosaics in Real-Time Based on SIFT.

Author

Yang Ping, Mao Zheng, Gao Anjie, and Qi Feng

Published

2010

19. Small target detection in infrared clutter using dark channel prior and improved local entropy

Author

Mao, Zheng, Sun, Le-gong, Mao, Yuxin, Gao, Anjie, and Qin, Yue

Abstract

In this article, we propose an infrared background clutter suppression technique using a similar method with the haze removal algorithm based on dark channel prior. The proposed method introduce some modifications to make the original haze removal algorithm can work in gray-scale infrared image in real-time. In addition, after the background suppression, we address a efficient algorithm for small target detection, which incorporate Box-Filtering technique into traditional small infrared target detecting based on LEA. This improved method reduces a large number of redundant calculations in traditional Local Entropy algorithm by applying the iterative operations instead of using traditional approach. We provide detailed analysis for time complexity and the results of simulation experiments with real world infrared images in the final of this work.

Published

2011