Expect more Earth flyby images to be released every dew days. Sadly, the mission has no plans to release raw image data as past missions have done. However, Enos said they do plan on relatively rapid data release to the Planetary Data System, with quarterly deliveries of data from the period 3 to 6 months prior.

Since the Earth flyby there have been three five-hour periods of science observations, one just a few hours after closest approach, one on September 24 from a range of about 1.2 million kilometers, one yesterday from 3 million kilometers. One more, on October 1, will be at a range of 5 million kilometers. Why wait until they're so far away?

Remember what OSIRIS-REx was designed to do. It's supposed to map and then approach very closely to a very small object. Bennu's size is estimated at about 500 meters. The Moon is 7000 times larger than that, and Earth 26000 times larger. So take the distances OSIRIS-REx travels from Earth and the Moon before testing out its instruments, and divide them by 10000, and you get an idea of how Bennu might appear to OSIRIS-REx from different reasonable ranges. The four post-flyby observation periods at ranges of 100,000, a million, 3 million, and 5 million kilometers are like observing Bennu from ranges of 10, 100, 300, and 500 kilometers. (Remember this when you wonder why all of OSIRIS-REx's approach images of Bennu just look pointlike. Bennu is small.)

OSIRIS-REx has a lot of cameras. In anticipation of more pictures being released, here is a brief summary of their capabilities:

OCAMS is a suite of three science cameras: PolyCam, MapCam, and SamCam. All share a common detector design, 1024 pixels square. (Read more here.) PolyCam has highest resolution (0.0139 mrad pixel scale) and narrowest field of view (0.8 degrees). It will be first to spot Bennu. It is focusable from a range of 200 meters to infinity. It is black-and-white. Bennu will become more than a pointlike object to PolyCam at a distance of about 37,000 kilometers. MapCam is intermediate in resolution (0.068 mrad) and field of view (4 degrees). It can take panchromatic (black-and-white) images and also has a filter wheel with 4 color filters with blue, green, and near-infrared wavelengths, so it can produce approximately natural color images. MapCam images of Earth show continents red where you would expect green because chlorophyll is highly reflective in the near-infrared. MapCam is usually in focus from 125 meters to infinity, but one of MapCam's filter positions has a panchromatic diopter lens that allows it to focus at ranges between 25 and 35 meters (without color capability). Bennu will become more than a pointlike object to MapCam at a distance of about 7500 kilometers. SamCam has lowest resolution (0.354 mrad) and widest field of view (20.8 degrees). It will be used to photograph sampling activities. It is in focus from 3 meters to infinity, and has a diopter that allows it to be in focus at 2 meters. Although it has a filter wheel, the filter wheel is more like a dust cover -- it contains three identical panchromatic filters so that a new one can be rotated in place if one gets covered with dust, plus the diopter and two lens caps. Bennu will become more than a pointlike object to PolyCam at a distance of about 1400 kilometers.

is a suite of three science cameras: PolyCam, MapCam, and SamCam. All share a common detector design, 1024 pixels square. (Read more here.) TAGCAMS is a suite of three engineering cameras: two Navcams and a Stowcam. They have the same pixel format (2592 by 1944) and the same wide field of view, 44 by 32 degrees. (Read more here.) The Navcams have monochrome sensors and are focused at infinity. They are designed to image the asteroid and background stars down to 4th magnitude for navigation purposes. There are two for redundancy. Stowcam has a Bayer color sensor and is very nearsighted, focused at the distance of the sample return capsule from the camera. It is designed to document transfer of the sample to the sample return capsule.

is a suite of three engineering cameras: two Navcams and a Stowcam. They have the same pixel format (2592 by 1944) and the same wide field of view, 44 by 32 degrees. (Read more here.)

Finally, I'll share some images not taken by OSIRIS-REx, but rather, of OSIRIS-REx. Earth flybys are special in part because we get a brief chance to lay eyes on our precious deep space travelers, even if we can only see them as points of light among the stars. Here are a few such views: