Session Chair | NOTES, Intro | 1 | Steve Schwartz et al.
| Current Sheets in the Earth's Quasi-parallel Magnetosheath |
2 | Tomas Karlsson | Do SLAMS penetrate the bow shock? |
Hadi Madanian | Please remember: 5 minutes talk, maximum 3 slides |
1 | Katy Goodrich | What We Know and What We Don't Know About Shocks. |
2 | Lynn Wilson | The discrepancy between simulation and observation of electric fields in collisionless shocks |
3 | Martin Lindberg | Entropy change across quasi-perpendicular shock |
4 | Imogen Gingell | Connecting Simulations & Observations of Kinetic Structures at the Bow Shock |
5 | Li-Jen Chen | Solitary magnetic structures (isolated SLAMS): Dynamical origin |
6 | Drew Turner | Formation of a fast magnetosonic shock |
7 | Hadi Madanian |
3 | Hadi Madanian | What makes a shock layer? |
4 |
8 | Steve Schwartz et al. | Current Sheets in the Earth's Quasi-parallel Magnetosheath |
9 | Savvas Raptis | Jets downstream of quasi-parallel and quasi-perpendicular bow shock |
5Drew Turner | Formation of a fast magnetosonic shock | 6 | Martin Lindberg | Entropy change across quasi-perpendicular shock |
7 | Lynn Wilson | The discrepancy between simulation and observation of electric fields in collisionless shocks |
Denny Oliveira | Can interplanetary shock impact angles control magnetospheric ULF wave activity? |
11 | Tomas Karlsson | Do SLAMS penetrate the bow shock? |
12 | Shan Wang | MMS observations of 3s ULF waves |
13 |
8 | Naoki Bessho | Kinetic waves and reconnecting current sheets in a quasi-parallel shock |
9 | Shan Wang | MMS observations of 3s ULF waves |
10 | Imogen Gingell | Connecting Simulations & Observations of Kinetic Structures at the Bow Shock |
11 | Li-Jen Chen | Solitary magnetic structures (isolated SLAMS): Dynamical origin