We present the source catalog and the properties of the B−, R−, and I−band images obtained to support the AKARI North Ecliptic Pole Wide (NEP-Wide) survey. The NEP-Wide is an AKARI infrared imaging survey of the north ecliptic pole covering a 5.8 deg 2 area over 2.5 -6 µm wavelengths. The optical imaging data were obtained at the Maidanak Observatory in Uzbekistan using the Seoul National University 4k × 4k Camera on the 1.5m telescope. These images cover 4.9 deg 2 where no deep optical imaging data are available. Our B−, R−, and I−band data reach the depths of ∼23.4, ∼23.1, and ∼22.3 mag (AB) at 5σ, respectively. The source catalog contains 96,460 objects in the R−band, and the astrometric accuracy is about 0.15 ′′ at 1σ in each RA and Dec direction. These photometric data will be useful for many studies including identification of optical counterparts of the infrared sources detected by AKARI, analysis of their spectral energy distributions from optical through infrared, and the selection of interesting objects to understand the obscured galaxy evolution.
1.the contiguous MIR wavelength coverage, and the low extinction value of E(B − V ) = 0.047 at the center of NEP (Schlegel et al. 1998), the NEP-Wide field is unique for the studies of the extragalactic objects like infrared luminous galaxies and AGNs. For further information about NEP surveys, the readers can refer to Matsuhara et al. (2006), Wada et al. (2007), and Lee et al. (2007Lee et al. ( , 2009).Optical imaging data can enhance the value of the unique AKARI NEP survey. Since AKARI has a low spatial resolution (the full width at half maximum (FWHM) of the point spread function (PSF) is about 6 ′′ at 15µm), the optical imaging with a higher resolution can help improving the astrometric accuracy and help deblending confused objects. Also, the optical bands are important to construct multi-wavelength spectral energy distributions (SEDs) of infrared sources such as galaxies and AGNs to understand their properties. There already exist deep optical data covering 2 deg 2 of the central region of the NEP-Wide field, obtained by the Canada-France-Hawaii Telescope (CFHT) with u * , g ′ , r ′ , i ′ , and z ′ filters (Hwang et al. 2007). However, there is no deep optical data for the remaining NEP-Wide area. The Digitized Sky Survey images are available, but neither their depths nor spatial resolutions are sufficient (the depth is about 20 mag at R and the seeing is about 3 ′′ with pixel scale of 1.0 ′′ at the NEP area) for identifying optical counterparts of many infrared sources. Hence, we observed this remaining NEP-Wide area in optical B, R, and I filters. The BRI filters were chosen because we needed a multiple color set at least three colors to construct the optical part of the SED of galaxy; one blue part, one red part, and a middle part between red and infrared bands. Also, those Bessell filters are wider than the Sloan Digital Sky Survey (SDSS) filters, enabling us to achieve a higher signal to noise ratio (S/N) per unit exposure time than the SDSS filters...
