1. Ai T-H; Liu C-F; Shang H; Johnstone D; Krasnopolsky R; “A Unified Model for Bipolar Outflows from Young Stars: Kinematic and Mixing Structures in HH 30”, ApJ (2024), accepted [SCI]
  2. Motoyama K; Krasnopolsky R; Shang H; Aida K; Sakane E; “An Efficient Algorithm for Astrochemical Systems Using Stoichiometry Matrix”, ApJS: 270(2), id.19 (11pp), Jan, 2024 [SCI] ( ADS Fulltext )
  3. Väisälä MS; Shang H; Galli D; Lizano S; Krasnopolsky R, “Exploring the Formation of Resistive Pseudodisks with the GPU Code Astaroth”, ApJ: 959(1), id.32 (13 pp), Dec, 2023 [SCI] ( ADS Fulltext )
  4. Hsu S-YLiu S-Y; Johnstone D; Liu T; Bronfman L; Chen H-RV; Dutta S; Eden DJ; Evans NJ, Ii; Hirano N; Juvela M; Kuan Y-J; Kwon W; Lee C-F; Lee CW; Lee J-E; Li S; Liu C-F; Liu X; Luo Q; Qin S-L; Rawlings MG; Sahu D; Sanhueza P; Shang H; Tatematsu K; Yang Y-L, “ALMA Survey of Orion Planck Galactic Cold Clumps (ALMASOP): The Warm-Envelope Origin of Hot Corinos”, ApJ: 956(2), id.120 (23pp), Oct, 2023 [SCI] ADS | Fulltext )
  5. Sahu DLiu S-Y; Johnstone D; Liu T; Evans NJ, II; Hirano N; Tatematsu KI; Di Francesco J; Lee C-F; Kim K-T; Dutta S; Hsu S-Y; Li S; Luo Q-Y; Sanhueza P; Shang H; Traficante A; Juvela M; Lee CW; Eden DJ; Goldsmith PF; Bronfman L; Kwon W; Lee J-E; Kuan Y-J; Ristorcelli I, “ALMA Survey of Orion Planck Galactic Cold Clumps (ALMASOP): Density Structure of Centrally Concentrated Prestellar Cores from Multiscale Observations”, ApJ: 945 (2), id.156 (15 pp), March, 2023 [SCI] ADS | Fulltext )
  6. Shang H; Krasnopolsky R; Liu C-F, “A Unified Model for Bipolar Outflows from Young Stars: Apparent Magnetic Jet Acceleration”, ApJL: 945(1), id.L1 (21 pp), March, 2023 [SCI] ( ADS | Fulltext )
  7. Shang H; Liu C-F; Krasnopolsky R; Wang L-Y, “A Unified Model for Bipolar Outflows from Young Stars: Kinematic Signatures of Jets, Winds, and Their Magnetic Interplay with the Ambient Toroids”, ApJ: 944(2), id.230 (55 pp), Feb, 2023 [SCI] ( ADS | Fulltext )
  8. Takami M; Guenther HM; Schneider PC; Beck TL; Karr JLOhyama Y; Galvan-Madrid R; Uyama T; White M; Grankin K; Coffey D; Liu C-F; Fukagawa M; Manset N; Chen W-P; Pyo T-S; Shang H; Ray TP; Otsuka M; Chou M-Y“Time-variable Jet Ejections from RW Aur A, RY Tau, and DG Tau”, ApJS: 264(1), id.1 (19pp), Jan, 2023 [SCI] ADS | Fulltext )
  9. Čemeljić M; Yang H; Yuan F; Shang H“Formation of episodic jets and associated flares from black hole accretion systems”, ApJ: 933(1), id.55 (13pp), Jul, 2022 [SCI] ADS | Fulltext )
  10. Dutta S; Lee C-F; Hirano N; Liu T; Johnstone D; Liu S-Y; Tatematsu KI; Goldsmith PF; Sahu D; …; Shang H; …; Hsu S-Y, “ALMA Survey of Orion Planck Galactic Cold Clumps (ALMASOP): Molecular Jet Launched at an Unprecedented Early Phase of Protostellar Evolution”, ApJ: 931(2), id.130 (13pp), Jun, 2022 [SCI] ADS | Fulltext )
  11. Jhan K-S; Lee C-F; Johnstone D; Liu T; Liu S-Y; Hirano N; Tatematsu KI; Dutta S; Moraghan A; Shang H; Lee J-E; Li S; Liu C-F; Hsu S-Y; Kwon W; Sahu D; et al., “ALMA Survey of Orion Planck Galactic Cold Clumps (ALMASOP): Deriving Inclination Angle and Velocity of the Protostellar Jets from their SiO Knots”, ApJL: 931(1), id.L5 (9pp), May, 2022 [SCI] ADS | Fulltext )
  12. Hsu S-YLiu S-Y; Liu T; Sahu DLee C-F; Tatematsu K; Kim K-T; Hirano N; Yang Y-L; Johnstone D; Liu H; Juvela M; Bronfman L; Chen H-RV; Dutta S; Eden DJ; Jhan K-SKuan Y-J; Lee CW; Lee J-E; Li S; Liu C-F; Qin S-L; Sanhueza P; Shang H; Soam A; Traficante A; Zhou J, “ALMA Survey of Orion Planck Galactic Cold Clumps (ALMASOP): A Hot Corino Survey toward Protostellar Cores in the Orion Cloud”, ApJ: 927(2), id.218 (27pp), Mar, 2022 [SCI] ADS | Fulltext )
  13. Dutta SLee C-F; Johnstone D; Liu T; Hirano NLiu S-Y; Lee J-E; Shang H; Tatematsu KI; Kim K-T; Sahu D; Sanhueza P; Di Francesco J; Jhan K-S; Lee CW; Kwon W; Li S; Bronfman L; Liu H-L; Traficante A; Kuan Y-J; Hsu S-Y; Moraghan A; Liu C-F; Eden D; Soam A; Luo Q; ALMASOP Team, “ALMA Survey of Orion Planck Galactic Cold Clumps (ALMASOP): Detection of a Dense SiO Jet in the Evolved Protostellar Phase”, ApJ: 925(1), id.11 (10pp), Jan, 2022 [SCI] ADS | Fulltext )
  14. Lee C-F; Li Z-Y; Shang HHirano N“Magnetocentrifugal Origin for Protostellar Jets Validated through Detection of Radial Flow at the Jet Base”, ApJ: 927(2), id.L27 (8pp), Mar, 2022 [SCI] ADS | Fulltext )
  15. Wang WVäisälä MSShang HKrasnopolsky R; Li Z-Y; Lam KH; Yuan F, “Magnetic Spirals in Accretion Flows Originated from Misaligned Magnetic Fields”, ApJ: 928(1), id.85 (23pp), Mar, 2022 [SCI] ADS | Fulltext )
  16. Jhan K-SLee C-F“25 AU Angular Resolution Observations of HH 211 with ALMA: Jet Properties and Shock Structures in SiO, CO, and SO”, ApJ: 909(1), id.11 (17pp.), Mar, 2021 [SCI] ADS | Fulltext )
  17. Lin Z-YDLee C-F; Li Z-Y; Tobin JJ; Turner NJ, “Inferring (sub)millimetre dust opacities and temperature structure in edge-on protostellar discs from resolved multiwavelength continuum observations: the case of the HH 212 disc”, MNRAS: 501(1), 1316-1335, Feb, 2021 [SCI] ADS | Fulltext )
  18. Liu C-FShang H; Herczeg GJ; Walter FM, “Revealing Ionization Conditions of Sz 102 with Spatially Resolved [Ne III] Microjets”, ApJ: 909(2), id.196 (12pp), Mar, 2021 [SCI] ADS | Fulltext )
  19. Sahu DLiu S-Y; Liu T; Evans NJ, Ii; Hirano N; Tatematsu KI; Lee C-F; Kim K-T; Dutta S; Alina D; Bronfman L; Cunningham M; Eden DJ; Garay G; Goldsmith PF; He J; Hsu S-YJhan K-S; Johnstone D; Juvela M; Kim G; Kuan Y-J; Kwon W; Lee CW; Lee J-E; Li D; Li PS; Li S; Luo Q-Y; Montillaud J; Moraghan A; Pelkonen V-M; Qin S-L; Ristorcelli I; Sanhueza P; Shang H; Shen Z-Q; Soam A; Wu Y; Zhang Q; Zhou J, “ALMA Survey of Orion Planck Galactic Cold Clumps (ALMASOP): Detection of Extremely High-density Compact Structure of Prestellar Cores and Multiple Substructures Within”, ApJL: 907(1), L15 (9pp), Jan, 2021 [SCI] ADS | Fulltext )
  20. Väisälä MS; Pekkilä J; Käpylä MJ; Rheinhardt M; Shang HKrasnopolsky R“Interaction of Large- and Small-scale Dynamos in Isotropic Turbulent Flows from GPU-accelerated Simulations”, ApJ: 907(2), id.83 (18pp.), Feb, 2021 [SCI] ADS | Fulltext )
  21. Čemeljić M; Siwak M, “Light-curve variation caused by accretion column switching stellar hemispheres”, MNRAS: 491(1), 1057-1063, Jan, 2020 [SCI] ADS | Fulltext )
  22. Dutta S; Lee C-F; Liu T; Hirano N; Liu S-Y; … ; Shang H; Sahu D;…; Moraghan A; Jhan K-S; Hsu S-Y;…; Kuan Y-J; et al., “ALMA Survey of Orion Planck Galactic Cold Clumps (ALMASOP). II. Survey Overview: A First Look at 1.3 mm Continuum Maps and Molecular Outflows”, ApJS: 251(2), id.20 (35pp.), Dec, 2020 [SCI] ADS | Fulltext )
  23. Hsu S-Y; Liu S-Y; …; Sahu D; Hirano N; Lee C-F; …; Dutta S; …; Jhan K-S; …; Kuan Y-J; …; Moraghan A; …; Shang H“ALMA Survey of Orion Planck Galactic Cold Clumps (ALMASOP). I. Detection of New Hot Corinos with the ACA”, ApJ: 898(2), id.107 (37pp.), Aug, 2020 [SCI] ADS | Fulltext )
  24. Lee C-F“Molecular jets from low-mass young protostellar objects”, A&ARv: 28(1), id.1 (38 pp.), Mar, 2020 [SCI] ADS | Fulltext )
  25. Lee C-F; Li Z-Y;Turner NJ, “Spiral structures in an embedded protostellar disk driven by envelope accretion”, Nature Astronomy: 4, 142-146, Feb, 2020 [SCI] ADS | Fulltext )
  26. Liu S-Y; Su Y-N; Zinchenko I; Wang K-S; …; Hsieh IT“ALMA View of the Infalling Envelope around a Massive Protostar in S255IR SMA1”, ApJ: 904(2), id.181 (17pp), Dec, 2020 [SCI] ADS | Fulltext )
  27. Shang H; Krasnopolsky R; Liu C-F; Wang L-Y“A Unified Model for Bipolar Outflows from Young Stars: The Interplay of Magnetized Wide-angle Winds and Isothermal Toroids”, ApJ: 905(2), id.116 (52pp.), Dec, 2020 [SCI] ADS | Fulltext )
  28. Takami M; …; Karr JLOhyama Y; …; Liu HB; …; Liu C-F; …; Shang H; …; Chou M-Y“Possible Time Correlation between Jet Ejection and Mass Accretion for RW Aur A”, ApJ: 901(1), id.24 (9pp.), Sep, 2020 [SCI] ADS | Fulltext )
  29. Yen H-W; Zhao B; Koch PKrasnopolsky R; Li Z-Y; Ohashi NShang HTakakuwa STang Y-W“Transition from Ordered Pinched to Warped Magnetic Field on a 100 au Scale in the Class 0 Protostar B335”, ApJ: 893(1), id.54 (11pp.), Apr, 2020 [SCI] ADS | Fulltext )
  30. Kim H; Liu S-Y; Taam RE“Templates of Binary-induced Spiral-shell Patterns around Mass-losing Post-main-sequence Stars”, ApJS: 243(2), id. 35 (44 pp.), Aug, 2019 [SCI] ADS | Fulltext )
  31. Lee C-F; Codella C; Li Z-Y; Liu SY“First Abundance Measurement of Organic Molecules in the Atmosphere of HH 212 Protostellar Disk”, ApJ: 876(1), id. 63 (9 pp.), May, 2019 [SCI] ADS | Fulltext )
  32. Lee C-F; Kwon W; Jhan K-SHirano N; …; SP Lai; …; Rao R; Ho PTP“A Pseudodisk Threaded with a Toroidal and Pinched Poloidal Magnetic Field Morphology in the HH 211 Protostellar System”, ApJ: 879(2), id. 101 (12 pp.), Jul, 2019 [SCI] ADS | Fulltext )
  33. Su Y-N; Liu S-Y; Li Z-Y; Lee C-F; Hirano N; Takakuwa S; Hsieh I-T“The Infall Motion in the Low-mass Protostellar Binary NGC 1333 IRAS 4A1/4A2”, ApJ: 885(2), id. 98 (16 pp.), Nov, 2019 [SCI] ADS | Fulltext )
  34. Väisälä MSShang HKrasnopolsky RLiu S-Y; et al., “Time Evolution of 3D Disk Formation with Misaligned Magnetic Field and Rotation Axes”, ApJ: 873(2), id. 114 (22 pp.), Mar, 2019 [SCI] ADS | Fulltext )
  35. Wang L-Y; Shang H; Chiang T-Y“Ejection History of the IRAS 04166+2706 Molecular Jet”, ApJ: 874(1), id. 31 (12 pp.), Mar, 2019 [SCI] ADS | Fulltext )
  36. Yen H-W; Zhao B; Hsieh I-TKoch P; Krasnopolsky R; Lee C-F; Li Z-Y; Liu S-Y; Ohashi N; Takakuwa S; Tang Y-W; et al., “JCMT POL-2 and ALMA Polarimetric Observations of 6000─100 au Scales in the Protostar B335: Linking Magnetic Field and Gas Kinematics in Observations and MHD Simulations”, ApJ: 871(2), id. 243 (18 pp.), Feb, 2019 [SCI] ADS | Fulltext )
  37. Dong RLiu S-Y; Eisner J; ….; Liu HB; et al., “The Eccentric Cavity, Triple Rings, Two-Armed Spirals, and Double Clumps of the MWC 758 Disk”, ApJ: 860(2), id. 124 (14 pp.), June, 2018 [SCI] ADS | Fulltext )
  38. Lee C-F; Hwang H-C; Ching T-C; Hirano NLai S-PRao RHo PTP“Unveiling a magnetized jet from a low-mass protostar”, Nature Communications: 9, 4636 (7 pp.), Nov, 2018 [SCI] ADS | Fulltext )
  39. Lee C-F; Li Z-Y; Hirano NShang HHo PTP; et al., “ALMA Observations of the Very Young Class 0 Protostellar System HH211-mms: A 30 au Dusty Disk with a Disk Wind Traced by SO?”, ApJ: 863(1), id. 94 (9 pp.), Aug, 2018 [SCI] ADS | Fulltext )
  40. Lee C-F; Li Z-Y; Ching T-C; Lai S-P; Yang H-F, “ALMA Dust Polarization Observations of Two Young Edge-on Protostellar Disks”, ApJ: 854(1), id. 56 (8 pp.), Feb, 2018 [SCI] ADS | Fulltext )
  41. Lee C-F; Li Z-Y; Codella C; Ho PTP; Podio L; Hirano NShang H; et al., “A 100 au Wide Bipolar Rotating Shell Emanating from the HH 212 Protostellar Disk: A Disk Wind?”, ApJ: 856(1), id. 14 (13 pp.), March 20, 2018 [SCI] ADS | Fulltext )
  42. Wu C-J; Hirano N; Takakuwa S; Yen H-W; Aso Y“Physical and Chemical Conditions of the Protostellar Envelope and the Protoplanetary Disk in HL Tau”, ApJ: 869(1), id. 59 (17 pp.), Dec, 2018 [SCI] ADS | Fulltext )
  43. Kim H; Trejo A; Liu S-Y; Saha R; Taam RE; …; Hirano N; et al., “The large-scale nebular pattern of a superwind binary in an eccentric orbit”, Nature Astronomy: 1, 0060, March, 2017 [SCI] ADS | Fulltext )
  44. Lee C-F; Ho PTP; Li Z-Y; Hirano N; Zhang Q; Shang H“A Rotating Protostellar Jet Launched from the Innermost Disk of HH 212”, Nature Astronomy: 1, 0152, July, 2017 [SCI] ADS | Fulltext )
  45. Lee C-F; Li Z-Y; Ho PTP; Hirano N; Zhang Q; Shang H“First detection of equatorial dark dust lane in a protostellar disk at submillimeter wavelength”, Science Advances: 3(4), e1602935, April, 2017 [SCI] ADS | Fulltext )
  46. Lee C-F; Li Z-Y; Ho PTPHirano N; Zhang Q; Shang H“Formation and Atmosphere of Complex Organic Molecules of the HH 212 Protostellar Disk”, ApJ: 843(1), 27, July 1, 2017 [SCI] ADS | Fulltext )
  47. Yen H-W; Koch PM; Takakuwa S; Krasnopolsky R; Ohashi N; et al., “Signs of Early-stage Disk Growth Revealed with ALMA”, ApJ: 834(2), 178, Jan, 2017 [SCI] ADS | Fulltext )
  48. Jhan K-SLee C-F“A Multi-Epoch SMA Study of the HH 211 Protostellar Jet: Jet Motion and Knot Formation”, ApJ: 816(1), 32, Jan, 2016 [SCI] ADS | Fulltext )
  49. Kim H; Liu S-Y; Hirano N; Zhao-Geisler R; Trejo A; Yen H-W; Taam RE; Kemper F; et al., “Spiral-shells and nascent bipolar outflow in CIT 6: hints for an eccentric-orbit binary?”, J. Phys.: Conf. Ser.: 728(7), 072018, Oct, 2016 ADS | Fulltext )
  50. Lee C-FHwang H-C; Li Z-Y, “Angular momentum loss in the envelope-disk transition region of HH 111 protostellar system: evidence for magnetic braking?”, ApJ: 826(2), 213, Aug 1, 2016 [SCI] ADS | Fulltext )
  51. Liu C-FShang H; Herczeg GJ; Walter FM, “The [Ne III] Jet of DG Tau and Its Ionization Scenarios”, ApJ: 832(2), 153, Dec, 2016 [SCI] ADS | Fulltext )
  52. Moraghan A; Lee C-F; Huang P-S; Vaidya, Bhargav, “A study of the wiggle morphology of HH 211 through numerical simulations”, MNRAS: 460(2), 1829-1838, Aug 1, 2016 [SCI] ADS | Fulltext )
  53. Lee C-F; Hirano N; Zhang Q; Shang H; Ho PTP; et al., “Jet Motion, Internal Working Surfaces, and Nested Shells in the Protostellar System HH 212”, ApJ: 805(2), 186, June 1, 2015 [SCI] ADS | Fulltext )
  54. Motoyama K; Morata O; Shang H; Krasnopolsky R; Hasegawa T“A hydrochemical hybrid code for astrophysical problems. I. Code verification and benchmarks for Photon-Dominated Region (PDR)”, ApJ: 808(1), 46, July, 2015 [SCI] ADS | Fulltext )
  55. Wang L-YShang HKrasnopolsky RChiang T-Y“A Two-Temperature Model of Magnetized Protostellar Outflows”, ApJ: 815(1), 39, Oct 10, 2015 [SCI] ADS | Fulltext )
  56. Yen H-W; Takakuwa S; Koch PM; …; Krasnopolsky R; Ohashi N“No Keplerian Disk >10 AU around the Protostar B335: Magnetic Braking or Young Age?”, ApJ: 812(2), 129, Oct 20, 2015 [SCI] ADS | Fulltext )
  57. Čemeljić MHuang R-Y“Magnetic reconnection in a comparison of topology and helicities in two and three dimensional resistive magnetohydrodynamic simulations”, Physics of Plasmas: 21(3), 032121, March, 2014 [SCI] ADS | Fulltext )
  58. Čemeljić M; Vlahakis N; Tsinganos K, “Large resistivity in numerical simulations of radially self-similar outflows”, MNRAS: 442(2), 1133-1141, Aug 1, 2014 [SCI] ADS | Fulltext )
  59. Lee C-FRao R; Ching T-C; Lai S-PHirano NHo PTPHwang H-C“Magnetic field structure in the Flattened Envelope and Jet in the young protostellar system HH 211”, ApJL: 797(1), L9-12, Dec 20, 2014 [SCI] ADS | Fulltext )
  60. Lee C-FHirano N; Zhang QZ; Shang HHo PTPKrasnopolsky R“ALMA Results of the Pseudodisk, Rotating Disk, and Jet in the Continuum and HCO+ in the Protostellar System HH 212”, ApJ: 786(2), 114, May, 2014 [SCI] ADS | Fulltext )
  61. Liu C-FShang H; Walter FM; Herczeg GJ, “Velocity-resolved [Ne III] from X-Ray Irradiated Sz 102 Microjets”, ApJ: 786(2), 99, May, 2014 [SCI] ADS | Fulltext )
  62. Wang L-Y; Shang H; Su Y-N; …; Hirano N; Lee C-F; et al., “Molecular Jet of IRAS 04166+2706”, ApJ: 780(1), 49, Jan, 2014 [SCI] ADS | Fulltext )
  63. Čemeljić MShang HChiang T-Y“Magnetospheric accretion and ejection of matter in resistive magnetohydrodynamic simulations”, ApJ: 768(1), 5, May 1, 2013 [SCI] ADS | Fulltext )
  64. Li Z-Y; Krasnopolsky R; Shang H, “Does Magnetic-field-Rotation Misalignment Solve the Magnetic Braking Catastrophe in Protostellar Disk Formation?”, ApJ: 774(1), 82, Sept 1, 2013 [SCI] ( ADS | Fulltext )
  65. Morata O; Hasegawa TI“Effects of H2 coating of grains on depletion of molecular species”, MNRAS: 429(4), 3578-3583, March 11, 2013 [SCI] ADS | Fulltext )
  66. Motoyama K; Umemoto T; Shang HHasegawa T“Effects of Magnetic Field and Far-ultraviolet Radiation on the Structures of Bright-rimmed Clouds”, ApJ: 766(1), 50, Mar 20, 2013 [SCI] ADS | Fulltext )
  67. Krasnopolsky R; Li Z-Y; Shang H; Zhao B, “Protostellar Accretion Flows Destabilized by Magnetic Flux Redistribution”, ApJ: 757(1), 77, Sept 20, 2012 [SCI] ADS | Fulltext )
  68. Liu C-FShang H“RW Aur A from the X-Wind Point of View: General Features”, ApJ: 761(2), 94, Dec, 2012 [SCI] ADS | Fulltext )
  69. Liu C-FShang H; Pyo T-S; Takami M; …; Yan C-HWang SYOhashi N; Hayashi M, “Is FS Tau B Driving an Asymmetric Jet?”, ApJ: 749(1), 62, April 10, 2012 [SCI] ADS | Fulltext )
  70. Krasnopolsky R; Li Z-Y; Shang H“Disk Formation in Magnetized Clouds Enabled by the Hall Effect”, ApJ: 733(1), 54, May 20, 2011 [SCI] ADS | Fulltext )
  71. Lee C-F“A rotating disk in the HH 111 Protostellar system”, ApJ: 741(1), 62, Nov 1, 2011 [SCI] ADS | Fulltext )
  72. Li Z-YKrasnopolsky RShang H“Non-ideal MHD Effects and Magnetic Braking Catastrophe in Protostellar Disk Formation”, ApJ: 738(2), 180, Sept 10, 2011 [SCI] ADS | Fulltext )
  73. Hirano NHo PTPLiu S-YShang HLee C-F;et al., “Extreme active molecular jets in L1448C”, ApJ: 717(1), 58-73, July 1, 2010 [SCI] ADS | Fulltext )
  74. Krasnopolsky R; Li Z-Y; Shang H“Disk Formation Enabled by Enhanced Resistivity”, ApJ: 716(2), 1541-1550, June 20, 2010 [SCI] ADS | Fulltext )
  75. Lee C-F“A Change of Rotation Profile in the Envelope in the HH 111 Protostellar System: A Transition to a Disk?”, ApJ: 725(1), 712-720, Dec, 2010 [SCI] ADS | Fulltext )
  76. Lee C-FHasegawa TIHirano N; Palau A; Shang HHo PTP; Zhang Q, “The Reflection-Symmetric Wiggle of the Young Protostellar Jet HH211”, ApJ: 713(2), 731-737, April 20, 2010 [SCI] ADS | Fulltext )
  77. Shang H; Glassgold AE; Lin W-CLiu C-F“Ne II Fine-structure Line Emission from the Outflows of Young Stellar Objects”, ApJ: 714(2), 1733-1739, May, 2010 [SCI] ADS | Fulltext )
  78. Krasnopolsky RShang H; Li Z-Y, “Topologies of Current-Free Axisymmetric Magnetospheres in Star-Disk Systems”, ApJ: 703(2), 1863-1871, Oct 1, 2009 [SCI] ADS | Fulltext )
  79. Lee C-FHirano N; …; Ho PTP; …; Shang H“Rotation and Outflow motions in the very low-mass Class 0 protostellar system HH 211 at subarcsecond resolution”, ApJ: 699(2), 1584-1594, July, 2009 [SCI] ADS | Fulltext )
  80. Lee C-F; Mao Y-Y; Reipurth B, “Infall and rotation motions in the HH 111 protostellar system: A flattened envelope in transition to a disk?”, ApJ: 694(2), 1395-1401, Apr 1, 2009 [SCI] ADS | Fulltext )
  81. Čemeljić M; Gracia J; Vlahakis N; Tsinganos K, “Resistive jet simulations extending radially self-similar magnetohydrodynamic models”, MNRAS: 389(3), 1022-1032, Sep, 2008 [SCI] ADS | Fulltext )
  82. Lee C-FHo PTP; …; Hirano NShang H; et al., “SiO shocks of the protostellar jet HH 212: A search for jet rotation”, ApJ: 685(2), 1026-1032, Oct 1, 2008 [SCI] ADS | Fulltext )
  83. Phan-Bao N; …; Lee C-FTang Y-WHo PTP; …; Lim JOhashi NShang H“First Confirmed Detection of a Bipolar Molecular Outflow from a Young Brown Dwarf”, ApJ: 689(2), L141-L144, Dec 20, 2008 [SCI] ADS | Fulltext )
  84. Lee C-FHo PTP; Beuther H; Bourke TL; Hirano NShang H; Zhang Q, “HH212: SMA Observations of a Remarkable Protostellar Jet”, ApJ: 659(1), 499-511, Apr 10, 2007 [SCI] ADS | Fulltext )
  85. Lee C-FHo PTP; Palau A; Hirano N; Bourke TL; Shang H; Zhang Q, “Submillimeter Arcsecond-Resolution Mapping of the Highly Collimated Protostellar Jet HH211”, ApJ: 670(2), 1188-1197, Dec 1, 2007 [SCI] ADS | Fulltext )
  86. Motoyama K; Umemoto T; Shang H“A Radiation Driven Implosion Model for the Enhanced Luminosity of Protostars near HII Regions”, A&A: 467(2), 657-664, May, 2007 [SCI] ADS | Fulltext )
  87. Shang H“Jets and molecular outflows from Herbig-Haro objects”, Ap&SS: 311(1-3), 25-34, Oct, 2007 [SCI] ADS | Fulltext )
  88. Shang HLi Z-YHirano N“Jets and Bipolar Outflows from Young Stars: Theory and Observational Tests”, Protostars and Planets: V, 261-276, 2007 ADS | Fulltext )
  89. Hirano NLiu S-YShang HHo PTP; …; Kuan Y-J; et al., “SiO J=5-4 in the HH 211 protostellar jet imaged with the Submillimeter Array”, ApJ: 636(2), L141-L144, Jan 10, 2006 [SCI] ADS | Fulltext )
  90. Shang HAllen ALi Z-YLiu C-FChou M-Y; Anderson J, “A Unified Model for Bipolar Outflows from Young Stars”, ApJ: 649(2), 845-855, Oct, 2006 [SCI] ADS | Fulltext )
  91. Shang H“Modeling Outflows from Young Stars”, IAUS: 221, 351-358, 2004 [SCI] ADS | Fulltext )
  92. Shang H; Lizano S; Glassgold A; Shu F“Free-free Radio Emission from Young Stellar Objects”, ApJ: 612(1), L69-L72, Sept 1, 2004 [SCI] ADS | Fulltext )
  93. Shang H“Developing Diagnostic Tools for X-Wind Jets”, Ap&SS: 287(1), 123-127, 2003 [SCI] ADS | Fulltext )
  94. Shang H; Glassgold AE; Shu FH; Lizano S, “Heating and ionization of X-winds”, ApJ: 564(2), 853-876, Jan, 2002 [SCI] ADS | Fulltext )
  1. Allart R; Lemée-Joliecoeur P-B; Jaziri AY; Lafrenière D; Artigau E; Cook N; Darveau-Bernier A; Dang L; Cadieux C; Boucher A; Bourrier V; Deibert EK; Pelletier S; Radica M; Benneke B; Carmona A; Cloutier R; Cowan NB; Delfosse X; Donati J-F; Doyon R; Figueira P; Forveille T; Fouqué P; Gaidos E; Gu P-G; Hébrard G; Kiefer F; Kóspál Ñ; Jayawardhana R; Martioli E; Dos Santos LA; Shang H; Turner JD; Vidotto AA, “Homogeneous search for helium in the atmosphere of 11 gas giant exoplanets with SPIRou”, A&A: 677, id.A164 (26 pp), Sep, 2023 [SCI] ADS | Fulltext )
  2. Feeney-Johansson A; Purser SJD; Ray TP; Carrasco-González C; Rodríguez-Kamenetzky A; Eislöffel J; Lim J; Galván-Madrid R; Lizano S; Rodríguez LF; Shang H; Ho P; Hoare M, “A high-resolution radio study of the L1551 IRS 5 and L1551 NE jets”, A&A: 677, id.A97 (13 pp), Sep, 2023 [SCI] ADS | Fulltext )
  3. Luo Q-Y; Liu T; Lee AT; Offner SSR; Di Francesco J; Johnstone D; Juvela M; Goldsmith PF; Qin S-L; Mai X; Liu X-C; Sanhueza P; Xu F-W; Tatematsu KI; Dutta S; Chen H-RV; Li S; Yang A; Liu S-Y; Lee C-F; Hirano N; Lee CW; Sahu D; Shang HHsu S-Y; Bronfman L; Kwon W; Rawlings MG; Eden D; Lu X; Gu Q-L; Ren Z; Ward-Thompson D; Shen Z-Q, “ALMA Survey of Orion Planck Galactic Cold Clumps (ALMASOP): A Forming Quadruple System with Continuum “Ribbons” and Intricate Outflows”, ApJL: 952(1), L2 (10 pp), July, 2023 [SCI] ADS | Fulltext )
  4. Kiefer F; Hébrard G; Martioli E; Artigau E; Doyon R; Donati J-F; Cadieux C; Carmona A; Ciardi DR; Cristofari PI; de Almeida L; Figueira P; Gaidos E; Gonzales E; Lecavelier Des Etangs A; Stassun KG; Arnold L; Benneke B; Boisse I; Bonfils X; Cook NJ; Cortés-Zuleta P; Delfosse X; do Nascimento JD; Fausnaugh M; Fong W; Fouqué P; Forveille T; Gomes da Silva J; Hesse K; Kóspál Á; Lewis H; Liu C-F; Martins JHC; Paegert M; Seager S; Shang H; Twicken JD; Vandal T; Vinatier S; Widemann T; Winn JN, “A sub-Neptune planet around TOI-1695 discovered and characterized with SPIRou and TESS”, A&A: 670, id.A136 (28 pp), Feb, 2023 [SCI] ADS | Fulltext )
  5. Pekkilä, J; Väisälä, MS; Käpylä, MJ; Rheinhardt, M; Lappi, O, “Scalable communication for high-order stencil computations using CUDA-aware MPI”, Parallel Computing: 111, id.102904, July, 2022 [SCI] ADS | Fulltext )
  6. Rodríguez-Kamenetzky AR; Carrasco-González C; Rodríguez LF; Ray TP; Sanna A; Moscadelli L; Hoare M; Galván-Madrid R; Shang H; Lizano S; Eislöffel J; Lim J; Torrelles JM; Ho PTP; Feeney-Johansson A, “Resolving the Collimation Zone of an Intermediate-mass Protostellar Jet”, ApJL: 931(2), id.L26 (10pp), Jun, 2022 [SCI] ADS | Fulltext )
  7. Vinković D; Čemeljić M“Inner dusty regions of protoplanetary discs – II. Dust dynamics driven by radiation pressure and disc winds”, MNRAS: 500(1), 506-519, Jan, 2021 [SCI] ADS | Fulltext )
  8. Zamponi J; Maureira MJ; Zhao B; Liu HB; Ilee JD; Forgan D; Caselli P, “The young protostellar disc in IRAS 16293-2422 B is hot and shows signatures of gravitational instability”, MNRAS: 508(2), 2583-2599, Dec, 2021 [SCI] ADS | Fulltext )
  9. Zhao B; Caselli P; Li Z-Y; Krasnopolsky RShang H; Lam KH, “The Interplay between Ambipolar Diffusion and Hall Effect on Magnetic Field Decoupling and Protostellar Disc Formation”, MNRAS: 505(4), 5142-5163, Aug, 2021 [SCI] ADS | Fulltext )
  10. Lin Z-YD; Li Z-Y; Yang H; …; Lee C-F; …; Lai S-P, “Probing the Temperature Structure of Optically Thick Disks Using Polarized Emission of Aligned Grains”, MNRAS: 493(4), 4868-4883, Apr, 2020 [SCI] ADS | Fulltext )
  11. Zhao B; Caselli P; Li Z-Y; Krasnopolsky RShang H; et al., “Hall effect in protostellar disc formation and evolution”, MNRAS: 492(3), 3375-3395, Mar, 2020 [SCI] ADS | Fulltext )
  12. Dong R; Liu S-Y; Fung J, “Observational Signatures of Planets in Protoplanetary Disks: Planet-Induced Line Broadening in Gaps”, ApJ: 870(2), id. 72 (15 pp.), Jan, 2019 [SCI] ADS | Fulltext )
  13. Hsieh C-H; Hu Y; Lai S-PLiu S-YHsieh I-T; et al., “Tracing Magnetic Field Morphology Using the Velocity Gradient Technique in the Presence of CO Self-absorption”, ApJ: 873(1), id. 16 (16 pp.), Mar, 2019 [SCI] ADS | Fulltext )
  14. Suriano SS; Li Z-Y; Krasnopolsky R; …; Shang H; et al., “The formation of rings and gaps in wind-launching non-ideal MHD discs: three-dimensional simulations”, MNRAS: 484(1), 107-124, Mar, 2019 [SCI] ADS | Fulltext )
  15. Codella C; Bianchi E; Tabone B; Lee C-F; et al., “Water and interstellar complex organics associated with the HH 212 protostellar disc On disc atmospheres, disc winds, and accretion shocks”, A&A: 617, id.A10 (9 pp.), Sep, 2018 [SCI] ADS | Fulltext )
  16. Girart JM; Fernández-López M; Li Z-Y; …; Krasnopolsky R; …; Rao R; et al., “Resolving the Polarized Dust Emission of the Disk around the Massive Star Powering the HH 80–81 Radio Jet”, ApJL: 856(2), L27, April, 2018 [SCI] ADS | Fulltext )
  17. Suriano SS; Li Z-Y; Krasnopolsky RShang H“The formation of rings and gaps in magnetically coupled disk-wind systems: ambipolar diffusion and reconnection”, MNRAS: 477(1), 1239-1257, June, 2018 [SCI] ADS | Fulltext )
  18. Yen H-W; Zhao B; Koch PMKrasnopolsky R; Li Z-Y; Ohashi NTakakuwa S“Constraint on ion-neutral drift velocity in the Class 0 protostar B335 from ALMA observations”, A&A: 615, id.A58 (11 pp.), July, 2018 [SCI] ADS | Fulltext )
  19. Zhao B; Caselli P; Li Z-Y; Krasnopolsky R“Decoupling of magnetic fields in collapsing protostellar envelopes and disc formation and fragmentation”, MNRAS: 473(4), 4868-4889, Feb, 2018 [SCI] ADS | Fulltext )
  20. Suriano SS; Li Z-Y; Krasnopolsky RShang H“Rings and gaps produced by variable magnetic disc winds and avalanche accretion streams – I. Axisymmetric resistive MHD simulations”, MNRAS: 468(4), 3850-3868, July, 2017 [SCI] ADS | Fulltext )
  21. Tafalla M; Su Y-NShang H; …; Lee C-FHirano NWang L-Y“Anatomy of the internal bow shocks in the IRAS 04166+2706 protostellar jet”, A&A: 597, A119, Jan, 2017 [SCI] ADS | Fulltext )
  22. Zhao B; Caselli P; Li Z-Y; Krasnopolsky RShang H; Nakamura F, “Protostellar disc formation enabled by removal of small dust grains”, MNRAS: 460(2), 2050-2076, Aug 1, 2016 [SCI] ADS | Fulltext )
  23. Li Z-Y; Banerjee R; Pudritz RE; Jørgensen JK; Shang HKrasnopolsky R; Maury A, “The Earliest Stages of Star and Planet Formation: Core Collapse, and the Formation of Disks and Outflows”, Protostars and Planets: VI, 173-194, 2014 [SCI] ADS | Fulltext )
  24. Li Z-Y; Krasnopolsky RShang H; Zhao B, “On the Role of Pseudodisk Warping and Reconnection in Protostellar Disk Formation in Turbulent Magnetized Cores”, ApJ: 793(2), 130, Oct, 2014 [SCI] ADS | Fulltext )
  25. Zhao B; Li Z-Y; Nakamura F; Krasnopolsky RShang H“Magnetic Flux Expulsion in Star Formation”, ApJ: 742(1), 10, Nov 20, 2011 [SCI] ADS | Fulltext )
  26. Lee C-F; Ho PTP; Beuther H; …; Hirano NShang H“Infall and Outflow around the HH 212 Protostellar System”, ApJ: 639 (1), 292-302, Mar 1, 2006 [SCI] ADS | Fulltext )
  27. Palau A; Ho PTP; Zhang Q; …; Hirano NShang H;…; Kuan Y-J“Submillimeter emission from the hot molecular jet HH 211”, ApJ: 636(2), L137-L140, Jan 10, 2006 [SCI] ADS | Fulltext )