Table of Contents

Presentations

Andrew Pierre L François L

Notes taken by FL

EDITH FALGARONE

BENJAMIN GODARD

ANDREW LEHMANN

PIERRE LESAFFRE

PIERRE HILY-BLANT

ERWAN ALLYS

ELENA BELLOMI

Afterthoughts by BG

Starting with the idea that the ISM is a multiphase turbulent medium, several observations may help us to understand

I'm no observer so I'll just throw ideas even if they are ridiculous or not completely correct

• To trace the multiphase ISM

  1. - HI maps (mass of WNM+CNM)
  2. - ArH+ (tracer of purely atomic gas → even better tracer than HI)
  3. - CII and OI fine structure (set the global thermal balance of CNM → mass of CNM)
  4. - CII and OI metastable lines (trace the mass of WNM)
  5. - CI fine structure lines
  6. → gives a measure of the gas thermal pressure
  7. → may give the mass of unstable gas
  8. → its relation with CO gives strong constrain on chemical models
  9. - CS, C2H, OH, and H2O (tracers of PDR in diffuse ISM)
  10. - HF (tracer of H2)
  11. - CH (tracer of PDR, except maybe at small column densities)
  12. - OH+ and H2O+ (tracers of CR ionization and molecular fraction)

• To trace the dissipation of turbulent energy at small scales and / or the turbulent mixing of phases at all scales

  1. - CH+ and SH+
  2. - excited H2
  3. - HCO+ and CO
  4. - CH (anomaly with PDR predictions at small column densities)
  5. - SH (not sure)

• For the DENSE GAS in starburst galaxies, we could try

  1. - SH+
  2. - the rotational diagram of CH+ (as high as possible) → this would be new by the way
  3. - CO, OH or H2O which behave oppositely to CH+ in irradiated shocks.