Euclid: The potential of slitless infrared spectroscopy: A z=5.4 quasar and new ultracool dwarfs

TL;DR

Euclid's slitless infrared spectroscopy effectively identifies high-redshift quasars and ultracool dwarfs, demonstrating its potential to discover rare luminous quasars at z>5 over large sky areas.

Contribution

This study showcases Euclid's NISP slitless spectroscopy as a powerful tool for discovering high-redshift quasars and ultracool dwarfs, including a newly identified z=5.404 quasar.

Findings

Detected a z=5.404 quasar with broad emission lines.

Successfully identified ultracool dwarfs via spectral cross-correlation.

Predicted Euclid can find bright quasars at z~5.5 and z>7.

Abstract

We demonstrate the potential of Euclid's slitless spectroscopy to discover high-redshift (z>5) quasars and their main photometric contaminant, ultracool dwarfs. Sensitive infrared spectroscopy from space is able to efficiently identify both populations, as demonstrated by Euclid Near-Infrared Spectrometer and Photometer Red Grism (NISP RGE) spectra of the newly discovered z=5.404 quasar EUCL J181530.01+652054.0, as well as several ultracool dwarfs in the Euclid Deep Field North and the Euclid Early Release Observation field Abell 2764. The ultracool dwarfs were identified by cross-correlating their spectra with templates. The quasar was identified by its strong and broad CIII] and MgII emission lines in the NISP RGE 1206-1892 nm spectrum, and confirmed through optical spectroscopy from the Large Binocular Telescope. The NISP Blue Grism (NISP BGE) 926-1366 nm spectrum confirms CIV and CIII] emission. NISP RGE can find bright quasars at z~5.5 and z>7, redshift ranges that are challenging for photometric selection due to contamination from ultracool dwarfs. EUCL J181530.01+652054.0 is a high-excitation, broad absorption line quasar detected at 144 MHz by the LOw-Frequency Array (L144=4e25 W/Hz). The quasar has a bolometric luminosity of 3e12 Lsun and is powered by a 3.4e9 Msun black hole. The discovery of this bright quasar is noteworthy as fewer than one such object was expected in the ~20 deg2 surveyed. This finding highlights the potential and effectiveness of NISP spectroscopy in identifying rare, luminous high-redshift quasars, previewing the census of these sources that Euclid's slitless spectroscopy will deliver over about 14,000 deg2 of the sky.