1. Fundamental physical processes and modeling |
Lei Ni: |
Connecting reconnection models to IRIS observations |
Tom van Doorsselaere: |
Alfvén wave turbulence in coronal loops |
Juan Martinez-Sykora: |
What does modeling the non-equilibrium chromosphere tell us about the reliability of IRIS diagnostics? |
2. Chromospheric heating and dynamics |
Sanja Danilovic: |
A modeler's perspective on UV bursts |
Andreas Lagg: |
Magnetic field in the chromosphere |
3. Magnetic coupling and mass flux through the atmosphere |
Pradeep Chitta: |
Magnetic coupling through the atmosphere |
Tiago Pereira:: |
Thermal coupling through the atmosphere |
Shin Toriumi: |
Flux emergence and related IRIS observations |
4. Eruptions in the solar atmosphere |
Vanessa Polito: |
Connecting flares to the low atmosphere |
Alphonse Sterling: |
What are the outstanding issues with jets? |
Miho Janvier: |
What can IRIS observation tell us about modeling of eruptions? |
5. Opportunities and challenges |
Andres Asensio-Ramos: |
Machine learning to investigate magnetic field and other complex data sets |
Alberto Sainz-Dalda: |
Machine learning and inversions of Mg II h/k spectra |
Steven White: |
What can we really get from ALMA? |
6. Science together with future facilities |
Gianna Cauzzi:: |
New science windows with future ground-based observations |
Nour-Eddine Raouafi: |
The Parker Solar Probe (PSP) and IRIS |
Javier Trujillo-Bueno: |
Rocket science with IRIS: CLASP-1 and 2 |