Planetary Science and Exploration

Huang, Hirabayashi and Orlando. "The Role of Hydrogen in Iron Reduction during Micrometeoroid Impact"

Hirabayashi and Huang. "Evaluating the d/D Ratio as a Discriminator for Primary vs. Secondary Craters with Molecular Dynamics Simulation"

Huang, Hirabayashi and Orlando. "Combined Effects of Micrometeoroid Impact and Solar Wind Irradiation on Lunar Surface Modification"

Z. Huang, B. M. Jones, T.M. Orlando and M. Hirabayashi. "Diffusion of H, H₂, H₂O, and He in Pristine and Defective SiO₂: A Reactive Molecular Dynamics Study"

SiO2_SingleH_different_render.mp4

Lunar Volatile Formation:

- Deep Dielectric Charging/ Dielectric Breakdown

Huang Z, Nomura K, Nakano A, et al. Molecular Dynamics Simulations of Dielectric Breakdown of Lunar Regolith: Implications for Water Ice Formation on Lunar Surface[J]. Geophysical Research Letters, 48, e2020GL091681[Link]

- Solar Wind Implantation

Huang, Z., Nomura, K., Morrissey, L.,Wang, J. (2022). Molecular Dynamics Simulation of Solar Wind Implantation in the Permanently Shadowed Regions on the Lunar Surface. Geophysical Research Letters, 2022, 49(18): e2022GL099333 [Link]

- Micrometeoroid Impact Leading to the Formation of Water

Huang, Z., Nomura, K., Wang, J. (2021). Molecular Dynamics Simulations of Water Formation and Retention by Micrometeoroid Impact on Lunar Surface. Geophysical Research Letters, 2021, 48(15): e2021GL093509 [Link]

Recombinative Desorption Formation of water from -OH during Micrometeoroid Impact
Huang, Z, K. Nomura, and J Wang. "Modeling Lunar Water Formation Induced by Micrometeorite Impacts." AGU Fall Meeting Abstracts. Vol. 2020. 2020.

MMI.mp4

MMI_traj.mp4

Icy Bodies: Hyperveloicty impact of ice cluster

Hypervelocity impact of ice nanoparticle leading to fragmentation and clustering
Abstract sbumitted to LPSC 2023: #2883 [PDF]

Ice_Frag_Video_4k_fps24.mov

(New!!)DeepMD & eReaxFF Capturing of ionization of water during hypervelocity impact

ice_proton_H3O.mp4

Interplanetary Ice/Dust Collisions

Ice-covered Interstellar Dust Coagulation
- Molecular Dynamics Simulation of Ice-covered Dust Coagulation
- 1D Dustpy-Coagulation and evolution in protoplanetary disk

Coagulation/Bouncing/Fragmentation

Dust_High_Impact_highresolution.mp4

Photochemical Modeling of Exoplanet Atmospheres:

- Hot Jupiters
  - HD189773b
  - VULCAN (https://github.com/exoclime/VULCAN)
  - Varying the bottom pressure to test the variation of chemical species
  - Volumn mixing ratio of different species
  - (Coming soon!) Coupling with GCM using neural networks through JAX

Mini-Neptune/Super-Earth (cold)
- K2-18 b & LHS 1140 b
- Water Condense out leading to reducing atmospheres.
- Understanding exoplanet atmospheres and habitability through the combination of photochemical modeling and JWST observations

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Planetary Science and Exploration

Huang, Hirabayashi and Orlando. "The Role of Hydrogen in Iron Reduction during Micrometeoroid Impact"

Hirabayashi and Huang. "Evaluating the d/D Ratio as a Discriminator for Primary vs. Secondary Craters with Molecular Dynamics Simulation"

Huang, Hirabayashi and Orlando. "Combined Effects of Micrometeoroid Impact and Solar Wind Irradiation on Lunar Surface Modification"

Z. Huang, B. M. Jones, T.M. Orlando and M. Hirabayashi. "Diffusion of H, H₂, H₂O, and He in Pristine and Defective SiO₂: A Reactive Molecular Dynamics Study"

Lunar Volatile Formation:

Deep Dielectric Charging/ Dielectric Breakdown

Solar Wind Implantation

Micrometeoroid Impact Leading to the Formation of Water

Recombinative Desorption Formation of water from -OH during Micrometeoroid Impact

Icy Bodies: Hyperveloicty impact of ice cluster

(New!!)DeepMD & eReaxFF Capturing of ionization of water during hypervelocity impact

Interplanetary Ice/Dust Collisions

Ice-covered Interstellar Dust Coagulation

Molecular Dynamics Simulation of Ice-covered Dust Coagulation

1D Dustpy-Coagulation and evolution in protoplanetary disk

Photochemical Modeling of Exoplanet Atmospheres: