The detailed timetable of the school is accessible below:
The program consists in:
General lectures (L):
- L1: Theory of nterferometry (C. Haniff)
- L2: Interferometry in practice (C. Haniff)
- L3: Phases in interferometry (J. Monnier)
- L4: Adverse effects (F. Malbet)
- L5: Calibrators (A. Boden)
- L6: VLTI current facility and prospects (M. Schöller)
- L7: AMBER and MIDI from user’s point of view (M. Wittkowski)
- L8: Interferometric data processing (G. Perrin)
- L9: MIDI data reduction (O. Chesneau)
- L10: AMBER data reduction (E. Tatulli) I
- L11: Systematics and biases (G. Perrin)
- L12: Model fitting (E. Thiébaut)
Tutorials (T):
- T1: Visibilities (D. Ségransan)
- T2: Observability (D. Ségransan)
- T3: Phase information (J. Monnier)
- T9: MIDI Data reduction software (O. Chesneau)
- T10: AMBER Data reduction software (G. Duvert)
- T12: Model fitting (I. Tallon-Bosc)
Practice (P):
- P1: Visibility models (D. Ségransan)
- P2: Observability (D. Ségransan)
- P3: Preparation of observation (G. Duvert)
- P5: Calibrators (G. Duvert)
- P7: Preparation of AMBER and MIDI observations (G. Duchêne)
- P9: MIDI data reduction (O. Chesneau)
- P10: AMBER data reduction (G. Duvert)
- P12: Model fitting (E. Thiébaut)
Seminars (S):
- S1: Achernar/VINCI (P. Kervella)
- S2: RR Sco/MIDI (K. Ohnaka)
- S3: Gamma2 Vel/AMBER (R. Petrov)
- S4: AGN/MIDI (K. Tristram)
- S5: eta Car/AMBER (G. Weigelt)
Complementary Skills (CS): P. Garcia
- CS1: Scientific presentation skills
- CS2: Scientitic writting
- CS3: Preparing a ESO/VLTI observing proposal
- CS4: Professional ethics
- CS5: Career development skills