Counting Little Red Dots at z<4 with Ground-based Surveys and Spectroscopic Follow-up

Abstract

Little red dots (LRDs) are a population of red, compact objects discovered by JWST at z>4. At 4<z<8, they are roughly 100 times more abundant than UV-selected quasars. However, their number density is uncertain at z<4 due to the small sky coverage and limited blue wavelength coverage of JWST. We present our ground-based search for LRDs at 2 z4, combining ultra-deep Hyper Suprime-Cam photometry and various (near-)infrared surveys within a total area of 3.1\,deg2. We find that for LRDs with M5500<-22.5, their number density declines from 10-4.5\,cMpc-3 at z>4 to 10-5.3\,cMpc-3 at 2.7<z<3.7 and 10-5.7\,cMpc-3 at 1.7<z<2.7. We also present the Magellan/FIRE spectrum of our first followed-up candidate, DEEP23-z2LRD1 at zspec=2.26, as a proof of concept for our sample selection. Similar to high-redshift LRDs, the spectrum of DEEP23-z2LRD1 exhibits broad Hα emission with FWHM≈2400\,km\,s-1 and with nearly symmetric narrow Hα absorption. Additionally, DEEP23-z2LRD1 has extremely narrow [OIII] lines with FWHM≈140\,km\,s-1, suggesting the presence of an accreting black hole in a low-mass host galaxy. Limited by the angular resolution of ground-based surveys, we emphasize that spectroscopic follow-ups are required to characterize the contamination fraction of this sample and pin down LRD number density at z<4.

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