Discovering High-z BL Lacs Using Swift/UVOT and SARA Observations with the Dropout Technique

Abstract

Measuring spectroscopic redshifts for BL Lacertae (BL Lac) objects, a class of blazar, is challenging because their optical spectrum lacks, or has weak, emission lines ( equivalent width ≤slant5). In this situation, alternative techniques are necessary for the estimation of distances to these sources. In this paper, we estimate the redshift by the photometric dropout technique for a sample of 64 blazars (59 BL Lacs and five blazar candidates of uncertain type). Two telescopes are utilized to observe the sample. The Ultraviolet/Optical Telescope (UVOT) on board Swift ( Swift/UVOT) observes sources in uvw2,\ uvm2,\ uvw1,\ u,\ b,\ v filters, while the ground-based telescopes SARA-CT/RM observed sources in g',\ r,' \ i',\ z' filters. We fit the photometric data with the LePHARE package and report four new high-z (z>1.3) BL Lacs at 2.03+0.07-0.05, 1.84+0.10-0.03, 2.04+0.16-0.14, and 2.93+0.01-0.04 as well as upper limits for 50 sources. This work increased the number of high-z BL Lacs found by this method up to 23. The high-z sources are discussed in the context of the cosmic gamma-ray horizon, blazar sequence, Fermi blazar divide, and masquerading BL Lacs.