The academic Bin Yang, the doctoral student Manuel Solimano and the postdoctoral researcher Jorge González-López in collaboration with the academic Manuel Aravena lead three initiatives that obtained access to the advanced space telescope. Likewise, the academics Alice Zurlo, Lucas Cieza, Chiara Mazzucchelli and James Jenkins will participate as co-investigators in different initiatives, as well as the doctoral student Camilo González-Ruilova.
UDP communications.- In just the second cycle of assigning observation times in the James Webb Space Telescope (JWST, its acronym in English) -the most modern to date, launched into space in December 2021-, three projects led by members of the Institute of Astrophysics Studies of the Diego Portales University (IEA UDP) were selected to have access to hours of observation with said instrument. This is the first time that initiatives led from Chile obtain it.
One of them is the one whose principal investigator is the IEA UDP academic bin yangwho will lead a project titled “Probing Water Ice in Distant Comets: Crystalline or Amorphous?”. With the help of the observations in the JWST, the initiative seeks to characterize the water ice in a series of comets, in order to better understand the role that this element plays in the formation of planetary systems.
Meanwhile, the astronomer Manuel Solimanostudent of PhD in Astrophysics from the Diego Portales Universitywill lead an initiative entitled “The LAHst of Us: A Sub-kiloparsec View Into The Origins Of a Strongly-Lensed Lyman Alpha Halo at z=3”which will explore the origins of the gas halos known as Lyman Alpha, for which the technology and capability of the JWST would allow for an unprecedented level of detail. Manuel is the only Chilean PhD student in Astrophysics who obtained observation at the JWST as principal investigator.
For his part, postdoctoral researcher Jorge González-López and academic Manuel Aravena lead a project entitled “Unveiling the interplay between the circumgalactic and interstellar media in a complex protocluster environment at z=4.5”in which the academic will also participate Roberto Assef, and the students Ana Posses and Manuel Solimano. The initiative seeks to take advantage of the characteristics of the JWST to study the interaction of ionized gas, the interstellar medium, and the stellar components necessary to understand feedback processes and galactic growth in distant galaxies. The data obtained will allow them to test galaxy formation scenarios, observe stellar population properties and other advances.
Likewise, academics and researchers will participate in projects led from abroad. It is the case of the astronomer Alice Zurlowho will be a co-author in the research titled “Follow the trace: Direct detection of a dynamically ejected young planet outside a circumbinary disk”which will seek to use the sensitivity of JWST’s sensors to observe, for the first time in detail, the process that leads to the ejection of a planet from a system.
For his part, IEA UDP academic Lucas Cieza will be co-investigator in the project “Building on ALMA: a JWST legacy survey of the chemical evolution of planet-forming disks”, which aims to systematically track the chemical evolution that planet-forming disks undergo during their lifetime. Along with it, Cieza and PhD student Camilo González-Ruilova will participate in an investigation entitled “The volatile inventory of the terrestrial planet forming zone: a study of transport from the outer to the inner disk with JWST and ALMA” which also aims to observe planet-forming disks and exoplanets and their chemical heterogeneity.
Finally, the academic Chiara Mazzucchelli will participate as a co-author in three investigations that obtained observation time. One of them, in the area of Supermassive Black Holes and Active Galaxies, is entitled “First spatially resolved characterization of a radio-driven outflow at z~6”; another, in the area of the Intergalactic Medium and the Circumgalactic Medium, is titled “Shedding Light on Early Structure Formation: Dissecting the Largest Gas Reservoirs of z=6.6 QSOs”. Finally, in the area of Large-Scale Structure of the Universe, he will participate in the research titled “Mapping the Most Extreme Protoclusters in the Epoch of Reionization”. Likewise, the academic James Jenkins He will be a co-investigator in a project that seeks to better understand the atmospheric structure of exoplanets the size of Neptune, an area where, until now, little information exists.
With these projects, the IEA UDP intends to further strengthen its contribution to research in the area, accessing observations from the largest and most advanced space telescope to date. The Director of the Institute, Jose Luis Prietostated that “the discoveries being made with JWST observations are advancing our knowledge in different areas of astrophysics. It is a tremendous achievement and a source of pride that PhD students, postdoctoral researchers, and IEA scholars have obtained observation time with JWST.”
The academic added that the process for assigning hours “is very competitive: approximately 14% of the submitted proposals obtained time. Besides, This speaks highly of the quality of the institute’s researchers and puts us in a privileged situation to make discoveries and push the frontier of knowledge in astrophysics. I am very expectant of the results of the observations that these programs will carry out with JWST”.
