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The Sloan Digital Sky Survey V (SDSS-V) is an ambitious project designed to map the entire sky by analyzing light from stars, galaxies, and other cosmic objects in unprecedented detail. It uses a technique called spectroscopy, which breaks light into its component colors (like a rainbow) to reveal information about an object’s composition, motion, and physical properties. What makes SDSS-V unique is its “panoptic spectroscopy,” meaning it repeatedly observes the whole sky across a wide range of wavelengths—from visible (optical) light to infrared—allowing scientists to track how objects change over time.
To do this efficiently, SDSS-V uses multiobject spectroscopy (MOS), where hundreds of optical fibers (thin light-guiding cables) are precisely positioned by robots to collect light from many objects at once. These fibers feed the light into instruments called spectrographs, which measure the detailed spectrum. The survey operates from telescopes in both the northern and southern hemispheres, ensuring full-sky coverage. It also introduces a newer method called integral field spectroscopy (IFS), which captures spectral information across large patches of sky simultaneously, rather than just from individual points. This is achieved using an array of small lenses and fibers that together create a detailed, spatially resolved map of light over a wide area.
SDSS-V is organized into three main science programs. The Milky Way Mapper studies the chemical composition and motion of stars to reconstruct the formation history of our galaxy (often called its “chemodynamical” evolution). The Black Hole Mapper focuses on understanding how supermassive black holes grow and influence their surroundings. The Local Volume Mapper examines nearby galaxies to learn how energy and elements are distributed and recycled within them. By combining advanced instruments with a long-term observing strategy, SDSS-V is set to greatly expand our understanding of the universe, while also complementing data from major space missions. It builds on the legacy of earlier SDSS projects, continuing their tradition of large-scale collaboration and high-impact astronomical data.
Figure 1. A schematic representation of SDSS-V: an all-sky, multiepoch spectroscopic facility and its science programs. Dual-hemisphere survey operations are undertaken at APO and LCO. Multiobject fiber spectroscopy is being carried out with two 2.5 m telescopes, each feeding a near-IR APOGEE spectrograph (300 fibers, R ∼ 22,000) and an optical BOSS spectrograph (500 fibers, R ∼ 2000). This enables a sky survey rate of ≳ 25 deg2−1. Ultra–wide-field integral field spectroscopy is being carried out by the LVM-I at LCO using a smaller 0.16 m telescope, with a ∼2000-fiber IFU feeding three optical R ∼ 4000 spectrographs. This schematic also outlines the three primary science programs: the MWM (red), drawing on both APOGEE (red) and BOSS (yellow) spectra; the BHM (orange), taking BOSS spectra of fainter targets; and the LVM (green), performing IFU mapping of the ionized ISM in the MW and nearby galaxies (image credit: M. Seibert).