Middle Ages Galaxy Properties
Project ID: tbc聽 PLEASE NOTE聽 All PhD positions for this project are currently filled, and new applications will not be accepted until May 2025.
厂耻辫别谤惫颈蝉辞谤(蝉):听Caroline Foster
As a key leader of the聽Middle Ages Galaxy Properties with Integral field spectroscopy () survey, my team鈥檚 research focuses on the dynamical evolution of galaxies in the last ~8-10 billion years by combining 3D spectroscopy data at intermediate redshift (z~0.3, corresponding to ~4 billion years ago) from the MAGPI survey with their local 3D survey counterparts (z~0, ~today), using single point spectroscopic surveys such as聽听补苍诲听聽to meaningfully link the 2 epochs and using the MAGPI suite of state-of-the-art galaxy simulation mock galaxy observations, we aim to聽reveal the physical mechanisms responsible for the dynamical transformation of galaxies.
I am looking for keen students at all levels (undergraduates to PhD) to join my group and help unravel galaxy transformation. I have a pre-defined PhD project as part of my Future Fellowship for which I am looking for someone interested in working with both simulations and observations. If you have a great PhD idea or would like to brainstorm other MAGPI-related opportunities for a PhD project, please contact me.
My mentoring and supervising style is student-led. I guide students to develop the ability to independently direct and take ownership of their own learning. Developing the necessary skills to learn independently is an important aspect of university training. The ability to learn even when a path has not yet been forged is a highly sought-after and transferrable skill in innovation-driven fields. As such, I encourage my students to formulate questions, look for answers and critically evaluate those answers.
Other skills that students are expected to develop as part of doing research in my group are:
- Programming skills;
- Analysis and handling of 3D spectroscopy and data cubes; and
- Broad understanding of the field of galaxy formation and evolution and how their project fits into the bigger picture.
PhD candidates will have collaborative opportunities with national and international collaborators, travel opportunities, a generous stipend and additional research support opportunities as part of my ARC grants. My students will be encouraged to join, participate and access opportunities from the聽聽Centre of Excellence.
Feedback on past students鈥 experience:
鈥淭hank you for taking me on board, guiding me through the basics, finer details, and politics of extragalactic astrophysics, and for your support and encouragement every step of the way. You have certainly set the bar very high for when I look for a thesis supervisor.鈥澛(summer intern)
鈥淚 really enjoyed the project 鈥 this has been my favourite subject at uni so far! I liked reading and learning about other people鈥檚 research; I enjoyed developing my programming skills; I liked thinking about the significance of the plots I had constructed and the results I had obtained.鈥 (undergraduate project student)
鈥淚 loved that at no point did you 鈥榮poon feed鈥 the students, but rather point them towards relevant literature and allow them to lead the conversation with specific questions. I think [student] benefited most from this as it required [them] to be proactive and take greater responsibility for the development of [their] project. A great collaborative approach to mentorship.鈥 (High school students鈥 teacher)"
Main profile image description
Unit Telescope 4 () of聽鈥檚听聽(VLT) sends four laser beams up to the sky above the聽聽observatory. The lasers create an artificial guide star as part of the VLT鈥檚 Adaptive Optics system, state-of-the-art technology that corrects the blurring effects of the Earth鈥檚 atmosphere to create sharper images of astronomical objects.
Photo credit: Sangku Kim/ESO
Project supporter: MAGPI