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Stars Squared: Evolution of Binary Stars (MVSpec)
summer term 2024
Lecturer: Fabian Schneider
16 participants
Lecturer: Fabian Schneider
16 participants
The first lecture will take place on Friday, April 19 at 9:15am at Philos.-weg 12 / R 106A.
Lectures are mostly blackboard-style accompanied by slides, interactive elements, figures and animations. All materials will be made available.
Covered topics range from basics of binary star evolution such as the classical two-body problem, tides and mass exchange to more complex processes such as stellar mergers, common-envelope evolution and compact-object binaries including gravitational-wave merger events.
Background knowledge on stellar evolution is helpful but a recap of the most important aspects will be given.
Material
- problem_set_01_binary_star_statistics.pdf
- problem_set_04_recap_stars.pdf
- contents.pdf
- lecture_slides_01_introduction.pdf
- lecture_slides_04_recap_stars.pdf
- problem_set_02_two_body_problem.pdf
- problem_set_03_observing_binaries.pdf
- reading_assignment_01-binary_benchmarks.pdf
- lecture_slides_05_tides.pdf
- problem_set_05_tides.pdf
- Particle_Trajectory_Roche_Potential.ipynb
- Roche_Potential.ipynb
- defaults.py
- lecture_slides_06_roche_potential.pdf
- problem_set_06_roche_potential.pdf
- lecture_slides_07_binary_mass_transfer.pdf
- lecture_slides_11_mass_transfer_examples.pdf
- problem_set_09_mass_exchange_examples.pdf
- problem_set_10_8m_star.txt
- problem_set_07_mass_transfer_i.pdf
- problem_set_08_mass_transfer_ii.pdf
- problem_set_10_9m_star.txt
- problem_set_10_contact_binaries.pdf
- problem_set_10_stellar_merger.ipynb
- lecture_slides_12_contact_mergers_ce.pdf
- problem_set_10_stellar_merger_solution.ipynb
- problem_set_11_compact_object_binaries.pdf
- lecture_notes.pdf
- lecture_slides_13_compact_object_binaries.pdf
- lecture_slides_14_gravitational_wave_astronomy.pdf
Practice groups
- Group 1 (Fabian Schneider)
16 participants
Phil 12 106A, Fri 11:15 - 12:00
