Publications of Jie Jiang

A list of publications authored or co-authored by Jie Jiang, derived from the SAO/NASA Astrophysics Data System (ADS). The number in brackets after each title indicates the number of citations that the paper has received.

Orcid ID: 0000-0001-5002-0577

List of publications ordered by citations
Number of papers: 60 (refereed: 53)
No. of citations: 2412
First author papers: 24 (refereed: 21)

2026

  1. Constraining the outer boundary condition for the Babcock-Leighton dynamo models [0]
    Luo, Yukun, Jiang, Jie, Li, Binghang, Zhang, Zebin & Wang, Ruihui, A&A, 705, A237

2025

  1. Minimal roles of solar subsurface meridional flow in the distributed-shear Babcock-Leighton dynamo [5]
    Jiang, Jie & Zhang, Zebin, A&A, 700, A210
  2. Simulation of Solar Surface Flux Transport Constrained by Magnetic Power Spectra. I. Flux Transport Parameter [2]
    Luo, Yukun, Jiang, Jie & Wang, Ruihui, ApJ, 993, 27
  3. Mutual Validation of Data Sets for Analyzing Tilt Angles in Solar Active Regions [4]
    Qin, Lang, Jiang, Jie & Wang, Ruihui, ApJ, 986, 114
  4. Solar Surface Magnetic Field Simulation from 2010 to 2024 and Anomalous Southern Poleward Flux Transport in Cycle 24 [4]
    Wang, Ruihui, Jiang, Jie & Luo, Yukun, ApJ, 987, 1
  5. Observation-based Iterative Map for Solar Cycles. I. Nature of Solar Cycle Variability [3]
    Wang, Zi-Fan, Jiang, Jie & Wang, Jing-Xiu, ApJ, 984, 183

2024

  1. Nonlinear and stochastic mechanisms of the solar cycle and their implications for the cycle prediction [1]
    Jiang, Jie, Dynamics of Solar and Stellar Convection Zones and Atmospheres (Editors: Getling, Alexander V. & Kitchatinov, Leonid L.), IAU Symposium, 365, p. 98
  2. Analyzing Magnetic Network and its Variations over Solar Cycles 23, 24 and 25 Based on Magnetic Power Spectra [3]
    Luo, Yukun, Jiang, Jie & Wang, Ruihui, Dynamics of Solar and Stellar Convection Zones and Atmospheres (Editors: Getling, Alexander V. & Kitchatinov, Leonid L.), IAU Symposium, 365, p. 19
  3. The Sun's Magnetic Power Spectra over Two Solar Cycles. II. Cycle Dependence of Active Regions, a Magnetic Network, and Their Relation [5]
    Luo, Yukun, Jiang, Jie & Wang, Ruihui, ApJ, 970, 76
  4. Toward a Live Homogeneous Database of Solar Active Regions Based on SOHO/MDI and SDO/HMI Synoptic Magnetograms. II. Parameters for Solar Cycle Variability [10]
    Wang, Ruihui, Jiang, Jie & Luo, Yukun, ApJ, 971, 110
  5. Meridional Flow in the Solar Polar Caps Revealed by Magnetic Field Observation and Simulation [8]
    Yang, Shuhong, Jiang, Jie, Wang, Zifan, Hou, Yijun, Jin, Chunlan, Song, Qiao, Luo, Yukun, Li, Ting, Zhang, Jun, Zhang, Yuzong, Zhou, Guiping, Deng, Yuanyong & Wang, Jingxiu, ApJ, 970, 183
  6. Modeling the effects of starspots on stellar magnetic cycles [7]
    Zhang, Zebin, Jiang, Jie & Kitchatinov, Leonid, A&A, 686, A90
  7. Discriminating between Babcock–Leighton-type Solar Dynamo Models by Torsional Oscillations [5]
    Zhong, Congyi, Jiang, Jie & Zhang, Zebin, ApJ, 969, 75

2023

  1. Physical Models for Solar Cycle Predictions [41]
    Bhowmik, Prantika, Jiang, Jie, Upton, Lisa, Lemerle, Alexandre & Nandy, Dibyendu, Space Science Reviews, 219, 40
  2. Comparison of physics-based prediction models of solar cycle 25 [22]
    Jiang, Jie, Zhang, Zebin & Petrovay, Kristóf, Journal of Atmospheric and Solar-Terrestrial Physics, 243, 106018
  3. Power spectra of the Sun's large-scale magnetic field during solar cycles 23 and 24 [2]
    Luo, Yukun, Jiang, Jie & Wang, Ruihui, The Era of Multi-Messenger Solar Physics (Editors: Cauzzi, Gianna & Tritschler, Alexandra), IAU Symposium, 372, p. 81
  4. The Sun's Magnetic Power Spectra over Two Solar Cycles. I. Calibration between SDO/HMI and SOHO/MDI Magnetograms [7]
    Luo, Yukun, Jiang, Jie & Wang, Ruihui, ApJ, 954, 199
  5. Automatic detection of solar active regions from SOHO/MDI and SDO/HMI synoptic magnetograms [0]
    Wang, Ruihui, Jiang, Jie & Luo, Yukun, The Era of Multi-Messenger Solar Physics (Editors: Cauzzi, Gianna & Tritschler, Alexandra), IAU Symposium, 372, p. 94
  6. Toward a Live Homogeneous Database of Solar Active Regions Based on SOHO/MDI and SDO/HMI Synoptic Magnetograms. I. Automatic Detection and Calibration [15]
    Wang, Ruihui, Jiang, Jie & Luo, Yukun, ApJS, 268, 55
  7. A new mechanism for the butterfly diagram of the solar cycle [3]
    Zhang, Zebin, Jiang, Jie & Zhang, Haowei, The Era of Multi-Messenger Solar Physics (Editors: Cauzzi, Gianna & Tritschler, Alexandra), IAU Symposium, 372, p. 91

2022

  1. The Nonuniformity of Poleward Flux Transport on the Solar Surface: A Statistical Method Applied to Solar Cycles 21-24 [5]
    Wang, Zi-Fan, Jiang, Jie & Wang, Jing-Xiu, ApJ, 930, 84
  2. A Potential New Mechanism for the Butterfly Diagram of the Solar Cycle: Latitude-dependent Radial Flux Transport [7]
    Zhang, Zebin, Jiang, Jie & Zhang, Haowei, ApJ, 941, L3
  3. A Babcock-Leighton-type Solar Dynamo Operating in the Bulk of the Convection Zone [22]
    Zhang, Zebin & Jiang, Jie, ApJ, 930, 30

2021

  1. Sunspot tilt angles revisited: Dependence on the solar cycle strength [33]
    Jiao, Qirong, Jiang, Jie & Wang, Zi-Fan, A&A, 653, A27
  2. Algebraic quantification of an active region contribution to the solar cycle [15]
    Wang, Zi-Fan, Jiang, Jie & Wang, Jing-Xiu, A&A, 650, A87

2020

  1. Nonlinear Mechanisms that Regulate the Solar Cycle Amplitude [55]
    Jiang, Jie, ApJ, 900, 19
  2. Activity Complexes and a Prominent Poleward Surge during Solar Cycle 24 [22]
    Wang, Zi-Fan, Jiang, Jie, Zhang, Jie & Wang, Jing-Xiu, ApJ, 904, 62
  3. Magnetic Activity of F-, G-, and K-type Stars in the LAMOST-Kepler Field [50]
    Zhang, Jinghua, Bi, Shaolan, Li, Yaguang, Jiang, Jie, Li, Tanda, He, Han, Yu, Jie, Khanna, Shourya, Ge, Zhishuai, Liu, Kang, Tian, Zhijia, Wu, Yaqian & Zhang, Xianfei, ApJS, 247, 9

2019

  1. Exploring the Cycle Period and Parity of Stellar Magnetic Activity with Dynamo Modeling [19]
    Hazra, Gopal, Jiang, Jie, Karak, Bidya Binay & Kitchatinov, Leonid, ApJ, 884, 35
  2. Different Contributions to Space Weather and Space Climate from Different Big Solar Active Regions [20]
    Jiang, Jie, Song, Qiao, Wang, Jing-Xiu & Baranyi, Tünde, ApJ, 871, 16

2018

  1. Predicting solar surface large-scale magnetic field of Cycle 24 [37]
    Jiang, Jie & Cao, Jinbin, Journal of Atmospheric and Solar-Terrestrial Physics, 176, 34
  2. A prediction of the solar cycle 25 [1]
    Jiang, Jie, Wang, Jing-Xiu & Jiao, Qi-Rong, Long-term Datasets for the Understanding of Solar and Stellar Magnetic Cycles (Editors: Banerjee, D., Jiang, J., Kusano, K. & Solanki, S.), IAU Symposium, 340, p. 327
  3. State-of-the-art of kinematic modeling the solar cycle [1]
    Jiang, Jie, Long-term Datasets for the Understanding of Solar and Stellar Magnetic Cycles (Editors: Banerjee, D., Jiang, J., Kusano, K. & Solanki, S.), IAU Symposium, 340, p. 269
  4. Predictability of the Solar Cycle Over One Cycle [91]
    Jiang, Jie, Wang, Jing-Xiu, Jiao, Qi-Rong & Cao, Jin-Bin, ApJ, 863, 159

2016

  1. Solar Cycle 25: Another Moderate Cycle? [82]
    Cameron, R. H., Jiang, J. & Schüssler, M., ApJ, 823, L22
  2. Reconstruction of spectral solar irradiance since 1700 from simulated magnetograms [43]
    Dasi-Espuig, M., Jiang, J., Krivova, N. A., Solanki, S. K., Unruh, Y. C. & Yeo, K. L., A&A, 590, A63

2015

  1. The Cause of the Weak Solar Cycle 24 [97]
    Jiang, J., Cameron, R. H. & Schüssler, M., ApJ, 808, L28

2014

  1. Physical causes of solar cycle amplitude variability [23]
    Cameron, R. H., Jiang, J., Schüssler, M. & Gizon, L., Journal of Geophysical Research (Space Physics), 119, 680
  2. Modelling total solar irradiance since 1878 from simulated magnetograms [30]
    Dasi-Espuig, M., Jiang, J., Krivova, N. A. & Solanki, S. K., A&A, 570, A23
  3. Magnetic Flux Transport at the Solar Surface [140]
    Jiang, J., Hathaway, D. H., Cameron, R. H., Solanki, S. K., Gizon, L. & Upton, L., Space Science Reviews, 186, 491
  4. Effects of the Scatter in Sunspot Group Tilt Angles on the Large-scale Magnetic Field at the Solar Surface [125]
    Jiang, J., Cameron, R. H. & Schüssler, M., ApJ, 791, 5
  5. Flux Transport Dynamos: From Kinematics to Dynamics [101]
    Karak, Bidya Binay, Jiang, Jie, Miesch, Mark S., Charbonneau, Paul & Choudhuri, Arnab Rai, Space Science Reviews, 186, 561

2013

  1. Limits to solar cycle predictability: Cross-equatorial flux plumes [73]
    Cameron, R. H., Dasi-Espuig, M., Jiang, J., Işık, E., Schmitt, D. & Schüssler, M., A&A, 557, A141
  2. Modeling solar cycles 15 to 21 using a flux transport dynamo [65]
    Jiang, J., Cameron, R. H., Schmitt, D. & Işık, E., A&A, 553, A128
  3. Can Surface Flux Transport Account for the Weak Polar Field in Cycle 23? [31]
    Jiang, Jie, Cameron, Robert H., Schmitt, Dieter & Schüssler, Manfred, Space Science Reviews, 176, 289
  4. MHD simulation of the inner-heliospheric magnetic field [22]
    Wiengarten, T., Kleimann, J., Fichtner, H., Cameron, R., Jiang, J., Kissmann, R. & Scherer, K., Journal of Geophysical Research (Space Physics), 118, 29

2012

  1. Surface flux evolution constraints for flux transport dynamos [51]
    Cameron, R. H., Schmitt, D., Jiang, J. & Işık, E., A&A, 542, A127

2011

  1. The solar magnetic field since 1700. II. Physical reconstruction of total, polar and open flux [61]
    Jiang, J., Cameron, R. H., Schmitt, D. & Schüssler, M., A&A, 528, A83
  2. The solar magnetic field since 1700. I. Characteristics of sunspot group emergence and reconstruction of the butterfly diagram [110]
    Jiang, J., Cameron, R. H., Schmitt, D. & Schüssler, M., A&A, 528, A82

2010

  1. Surface Flux Transport Modeling for Solar Cycles 15-21: Effects of Cycle-Dependent Tilt Angles of Sunspot Groups [138]
    Cameron, R. H., Jiang, J., Schmitt, D. & Schüssler, M., ApJ, 719, 264
  2. The Effect of Activity-related Meridional Flow Modulation on the Strength of the Solar Polar Magnetic Field [73]
    Jiang, J., Işik, E., Cameron, R. H., Schmitt, D. & Schüssler, M., ApJ, 717, 597
  3. Modeling the Sun's Open Magnetic Flux and the Heliospheric Current Sheet [49]
    Jiang, J., Cameron, R., Schmitt, D. & Schüssler, M., ApJ, 709, 301
  4. An efficient method for computing the eigenfunctions of the dynamo equation [6]
    Schrinner, M., Schmitt, D., Jiang, J. & Hoyng, P., A&A, 519, A80

2009

  1. Countercell Meridional Flow and Latitudinal Distribution of the Solar Polar Magnetic Field [28]
    Jiang, J., Cameron, R., Schmitt, D. & Schüssler, M., ApJ, 693, L96

2008

  1. Mode selection mechanism and magnetic diffusivity in a non-axisymmetric solar dynamo model [2]
    Jiang, Jie & Wang, Jingxiu, Advances in Space Research, 41, 874

2007

  1. Predicting Solar Cycle 24 With a Solar Dynamo Model [295]
    Choudhuri, Arnab Rai, Chatterjee, Piyali & Jiang, Jie, Physical Review Letters, 98, 131103
  2. A dynamo model for axisymmetric and non-axisymmetric solar magnetic fields [20]
    Jiang, J. & Wang, J. X., MNRAS, 377, 711
  3. A New Explanation for the Origin of Trans-equatorial Loops based on a Dynamo Model [14]
    Jiang, Jie, Choudhuri, Arnab Rai & Wang, Jingxiu, Solar Physics, 245, 19
  4. Solar activity forecast with a dynamo model [196]
    Jiang, Jie, Chatterjee, Piyali & Choudhuri, Arnab Rai, MNRAS, 381, 1527

2006

  1. A Non-axisymmetric Spherical α2-Dynamo [12]
    Jiang, Jie & Wang, Jing-Xiu, Chinese Journal of Astronomy and Astrophysics, 6, 227

Created on Wed Apr 8 04:30:12 2026.