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We have a successful JWST Cycle 1 program that will obtain the deepest spectra of high redshift galaxies with the this $10 billion telescope. We believe these data will lead to ground-breaking results on how galaxies evolve over cosmic time, and in particular about the complex and violent physical processes in during the era first few generations of galaxies in the Universe. of "first galaxies." As the first of its kind, we hope the these data bring interesting surprises that will challenge our understanding of the nascent Universe. Here are some good introductory videos on JWSTand galaxy formation/cosmology. JHU grad student Alexander de la Vega recently gave a talk summarizing galaxy science in the our program.
There are myriad possible science projects, and all will be the first of their kind since we've never had data like these ! Students before! To ensure a good project match, students will be briefly introduced to each topic before they decide on a given project to ensure a good match. Here are a few possible projects; there are many more.
(1) From theory, we expect that galaxies have chaotic and complex dynamics early-on. It is unclear whether these early systems are even virialized, or perhaps can even be called galaxies. Our data will allow us to measurer measure for the first time how the dynamics of galaxies evolve from the early Universe to today.
(2) Significant Powerful and ubiquitous outflows in galaxies are needed to reionize the Universe according to our current theoretical understanding. Our extremely deep spectra will measure any violent outflows that are expected in the early Universethese outflows, and their strength and frequency. This is crucial for determining how the Universe was reionized, not to mention how galaxies formed.
(3) For the first time, we will accurately measure the rates at which galaxies form stars over a significant range in cosmic history. We will do this with key emission lines that only JWST can observe. Finally
Finally, it's worth mentioning that a particular strength of our research group is that we all study the same galaxies from a different perspective, and then combine these perspectives to form a more complete picture. The The core team on our JWST program is partially based at the University of Arizona, and we will have meetings there at least once a year. We also work closely with the JWST technical teams at Space Telescope (ST), astronomers at ST, and have close collaborators at UC Santa Cruz and the Institut d'Astrophysique de Paris that we visit often during non-pandemic times.
Aside from our Cycle 1 program, Kassin is also working on a proposal to find the first stars to form in the Universe with JWST. The idea is to catch them when they explode as "pair instability supernovae." In collaboration with theorists, Kassin is calculating what is necessary for such a survey.
Finally, those of us in the "Galaxy Slice and Dice" research are passionate about diversity efforts, and hope that our group is a welcoming and safe space for new ideas and scientific and technical development. We also have opportunities for outreach and undergraduate and high school student mentoring.
We are currently in the process of updating our website, but an older list of a of some of our members can be found here.
If you are interested, please drop Susan and Cami a line and we can talk (kassin@stsci.edu, pacifici@stscicpacifici@stsci.edu). Also please feel free to reach out to any of the group members current and former.
Thanks for your interest!
Above: Below is a A photo of some of us in June 2021.
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Above: A more formal photo from a few years ago.
