The James Webb Space Telescope (JWST), with its high spatial resolution and superb imaging sensitivity in the near-infrared (NIR), will soon become the prime observatory for the discovery and investigation of high redshift galaxies. As such, multiple synergies arise with MOSAIC.

The combination of structural and morphological properties derived from JWST/NIRCam deep imaging and the highly multiplexed, spatially-resolved spectroscopic capabilities offered by MOSAIC will produce the first systematic census of the mass assembly and star formation histories of galaxies out to z ~ 4. This will allow us to infer their dynamical state, to study the properties of their stellar populations and the interstellar medium, to unveil their chemical enrichment histories, and to quantify the evolution of fundamental scaling relations involving galaxy masses, sizes, and kinematics.

 A z=2 simulated galaxy as viewed by HST and JWST. The inset shows a zoom of the disc region, where JWST will resolve large star-forming clumps. MOSAIC will obtain detailed kinematic and chemical properties of these structures, as well as for both the bulge and disc components. Image credit: D. Ceverino, C. Moody, and G. Snyder.MOSAIC will efficiently carry out spectroscopic follow-up studies of new targets identified through JWST imaging. For example, over the redshift range 5 < z < 9 it is expected that JWST will obtain high quality near-to-mid IR photometry for over a thousand sources within the patrol field of MOSAIC. And while JWST/NIRSpec can provide low-resolution observations of the brightest targets, the JWST will have a limited spectroscopic sensitivity compared to the E-ELT due to its smaller collecting area. This is a particularly severe problem for continuum and absorption-line spectroscopic studies, which can only be efficiently carried out for samples this large with a wide-field, highly-multiplexed, and extremely sensitive instrument like MOSAIC.

At even higher redshifts MOSAIC will establish the Ly-α properties of 7 < z < 15 sources discovered by JWST. With these measurements it will be possible to accurately determine the hydrogen ionisation fraction in the intergalactic medium and its evolution with redshift, effectively measuring the cosmic reionisation history and determining important properties of the first galaxies in the Universe, from gas outflows to characterising the interstellar medium and the stellar population contents.

In summary, we envision the combination of JWST and MOSAIC as the ultimate tool for studies of high redshift galaxies and of the history of cosmic reionisation.


Who are we? Infos on the MOSAIC consortium.


Scientific goals and milestones: why MOSAIC?


How do we get there? All the technology behind MOSAIC.


What performance can we expect from MOSAIC?


How will MOSAIC fit in the instrumental landscape?