We studied mid-infrared (MIR) variability of a large sample of blazars detected by LAT/Fermi (called Fermi-detected blazars) and those not detected by LAT/Fermi (called non-Fermi-detected blazars) in order to investigate any difference in the variability characteristics between them as well as between FSRQs and BL Lacs. Making use of NEOWISE archival data from October 2013 to December 2017, we constructed the long-term 3.4 mu m and 4.6 mu m light curves of 2,573 blazars and computed their intrinsic variability amplitudes, . As a result, we found that (1) Fermi-detected blazars show higher than non-Fermi-detected blazars; (2) Fermi-detected FSRQs show higher than non-Fermi-detected FSRQs; (3) Fermi-detected BL Lacs show higher than non-Fermi-detected BL Lacs; (4) FSRQs show higher than BL Lacs. By comparing their distributions of "" in the ALLWISE database, we also found that Fermi-detected blazars/FSRQs/BL Lacs tend to be more variable than non-Fermi-detected blazars/FSRQs/BL Lacs. For the Fermi-detected blazars, there are highly significant correlations between the flux densities and spectral indices in the MIR and gamma-ray bands. These results imply that the activity in the two bands is connected. Our results are consistent with several earlier results on the differences between Fermi-detected blazars and non-Fermi-detected blazars. We also give some possible explanations about the statistical results.

• 出版日期2018-8
• 单位云南师范大学