林明楷 Lin, Min-Kai

Associate Research Fellow (Tenured)

photo of 林明楷
辦公室: ASMAB 1213
電子信箱: mklin   _replace_to_@_   asiaa.sinica.edu.tw
pubLON 3917957/min-kai-lin/
ORCID 0000-0002-8597-4386
ADS 查詢ADS上的研究著作

研究興趣

Min-Kai is interested in theoretical astrophysics. He specializes in astrophysical fluid dynamics applied to planet formation and evolution. His research topics include: protoplanetary disks, hydrodynamic and magneto-hydrodynamic instabilities, planet migration, accretion disk vortices, and dust dynamics. He employs a combination of analytical methods and large-scale numerical simulations.

工作經歷

學歷

榮譽與獎勵

所屬專業及學術團體

期刊論文(中研院就職期間發表)(32)

  1. Lin M-K, "Stratified and Vertically Shearing Streaming Instabilities in Protoplanetary Disks", ApJ: 907(2), id.64 (20pp), Feb, 2021 [SCI] ( ADS | Fulltext )
  2. Lin M-K, "Dust settling against hydrodynamic turbulence in protoplanetary discs", MNRAS: 485(4), 5221-5234, Jun, 2019 [SCI] ( ADS | Fulltext )
  3. Lin M-K; Pierens A, "Vortex survival in 3D self-gravitating accretion discs", MNRAS: 478(1), 575-591, July, 2018 [SCI] ( ADS | Fulltext )
  4. Lin M-K; Youdin AN, "A Thermodynamic View of Dusty Protoplanetary Disks", ApJ: 849(2), 129, Nov 10, 2017 [SCI] ( ADS | Fulltext )
  5. Hsu C-Y; Li Z-Y; Tu Y; Hu X; Lin M-K, "Rossby wave instability and substructure formation in 3D non-ideal MHD wind-launching disks", MNRAS: 533(3), 2980-2996, Sep, 2024 [SCI] ( ADS | Fulltext )
  6. Bi J; Lin M-K, "Shoulder of Dust Rings Formed by Planet–Disk Interactions", ApJ: 971(1), id.76 (10pp), Aug, 2024 [SCI] ( ADS | Fulltext )
  7. Lehmann M; Lin M-K, "Convective Overstability in Radially Global Protoplanetary Disks. I. Pure Gas Dynamics", ApJ: 970(1), id.15 (25 pp), July, 2024 [SCI] ( ADS | Fulltext )
  8. Smallwood JL; Lin M-K; Aly H; Nealon R; Longarini C, "Polar alignment of a dusty circumbinary disc - I. Dust ring formation", MNRAS: 532(1), 1068-1086, July, 2024 [SCI] ( ADS | Fulltext )
  9. Gerbig K; Lin M-K; Lehmann M, "Filament formation due to diffusive instabilities in dusty protoplanetary disks", ApJ: 961(2), id.183 (18 pp), Feb, 2024 [SCI] ( ADS | Fulltext )
  10. Wu Y; Lin M-K; Cui C; Krapp L; Lee Y-N; Youdin AN, "Dust Dynamics in Hall-effected Protoplanetary Disks. I. Background Drift Hall Instability", ApJ: 962(2), id.173 (17pp), Feb, 2024 [SCI] ( ADS | Fulltext )
  11. Hammer M; Lin M-K, "How to form compact and other longer-lived planet-induced vortices: VSI, planet migration, or re-triggers, but not feedback", MNRAS: 525(1), 123-149, Oct, 2023 [SCI] ( ADS | Fulltext )
  12. Wu Y; Chen Y-X; Jiang H; Dong R; Macías E; Lin M-K; Rosotti GP; Elbakyan V, "Distinguishing magnetized disc winds from turbulent viscosity through substructure morphology in planet-forming discs", MNRAS: 523(2), 2630-2640, August, 2023 [SCI] ( ADS | Fulltext )
  13. Lehmann M; Lin M-K, "Instabilities in dusty non-isothermal protoplanetary discs", MNRAS: 522(4), 5892-5930, July, 2023 [SCI] ( ADS | Fulltext )
  14. Lesur G; Ercolano B; Flock M; Lin MK; Yang CC; Barranco JA; Benitez-Llambay P; Goodman J; Johansen A; Klahr H; Laibe G; Lyra W; Marcus P; Nelson RP; Squire J; Simon JB; Turner N; Umurhan OM; Youdin AN, "Hydro-, Magnetohydro-, and Dust-Gas Dynamics of Protoplanetary Disks", Protostars and Planets: VII (ASP Conference Series, 534), 465 (32pp), July, 2023 [SCI] ( ADS | Fulltext )
  15. Bi J; Lin M-K; Dong R, "Gap-opening Planets Make Dust Rings Wider", ApJ: 942(2), id.80 (13pp), Jan, 2023 [SCI] ( ADS | Fulltext )
  16. Hsu C-Y; Lin M-K, "Nonlinear Evolution of Streaming Instabilities in Accreting Protoplanetary Disks", ApJ: 937(2), id.55 (17 pp), Oct, 2022 [SCI] ( ADS | Fulltext )
  17. Auddy S; Dey R; Lin M-K; Carrera D; Simon JB, "Using Bayesian Deep Learning to Infer Planet Mass from Gaps in Protoplanetary Disks", ApJ: 936(1), id.93 (11pp), Sep, 2022 [SCI] ( ADS | Fulltext )
  18. Gu P-G; Chen C-Y; Shen E; Yen C-C, Lin MK, "Revealing the Drag Instability in One-fluid Nonideal Magnetohydrodynamic Simulations of a 1D Isothermal C-shock", ApJ: 935(2), id.95 (16pp), Aug, 2022 [SCI] ( ADS | Fulltext )
  19. Lehmann M; Lin MK, "Impact of local pressure enhancements on dust concentration in turbulent protoplanetary discs", A&A: 658, id.A156 (28pp), Feb, 2022 [SCI] ( ADS | Fulltext )
  20. Lin M-K; Hsu C-Y, "Streaming Instabilities in Accreting and Magnetized Laminar Protoplanetary Disks", ApJ: 926(1), id.14 (24pp), Feb, 2022 [SCI] ( ADS | Fulltext )
  21. Auddy S; Dey R; Lin M-K; Hall C, "DPNNet-2.0 Part I: Finding hidden planets from simulated images of protoplanetary disk gaps", ApJ: 920(1), id.3 (12pp), Oct, 2021 [SCI] ( ADS | Fulltext )
  22. Cui C; Lin M-K, "On the vertical shear instability in magnetized protoplanetary discs", MNRAS: 505(2), 2983-2998, Aug, 2021 [SCI] ( ADS | Fulltext )
  23. Hammer M; Lin M-K; Kratter KM; Pinilla P, "Which planets trigger longer lived vortices: low-mass or high-mass?", MNRAS: 504(3), 3963-3985, Jul, 2021 [SCI] ( ADS | Fulltext )
  24. Bi J; Lin M-K; Dong R, "Puffed-up Edges of Planet-opened Gaps in Protoplanetary Disks. I. Hydrodynamic Simulations", ApJ: 912(2), id.107 (10pp), May, 2021 [SCI] ( ADS | Fulltext )
  25. Auddy S; Lin M-K, "A Machine Learning Model to Infer Planet Masses from Gaps Observed in Protoplanetary Disks", ApJ: 900(1), id.62 (12pp.), Sep, 2020 [SCI] ( ADS | Fulltext )
  26. Hsieh H-F; Lin M-K, "Migrating Low-Mass Planets in Inviscid Dusty Protoplanetary Discs", MNRAS: 497(2), 2425-2441, Jul, 2020 [SCI] ( ADS | Fulltext )
  27. Chen Kan; Lin M-K, "How Efficient Is the Streaming Instability in Viscous Protoplanetary Disks?", ApJ: 891(2), id.132 (17pp.), Mar, 2020 [SCI] ( ADS | Fulltext )
  28. Pierens A; Lin M-K; Raymond SN, "Vortex instabilities triggered by low-mass planets in pebble-rich, inviscid protoplanetary discs", MNRAS: 488(1), 645-659, Sep, 2019 [SCI] ( ADS | Fulltext )
  29. Hammer M; Pinilla P; Kratter KM; Lin M-K, "Observational diagnostics of elongated planet-induced vortices with realistic planet formation time-scales", MNRAS: 482(3), 3609-3621, 2019 [SCI] ( ADS | Fulltext )
  30. Pierens A; Lin M-K, "On the evolution of vortices in massive protoplanetary discs", MNRAS: 479(4), 4878-4890, Oct, 2018 [SCI] ( ADS | Fulltext )
  31. Chen J-W; Lin M-K, "Dusty disc-planet interaction with dust-free simulations", MNRAS: 478(2), 2737-2752, Aug, 2018 [SCI] ( ADS | Fulltext )
  32. Hammer M; Kratter KM; Lin M-K, "Slowly-growing gap-opening planets trigger weaker vortices", MNRAS: 466(3), 3533-3543, April, 2017 [SCI] ( ADS | Fulltext )