NASA's Curiosity rover and its parachute were spotted by NASA's Mars Reconnaissance Orbiter as Curiosity descended to the surface on Aug. 5 PDT (Aug. 6 EDT). The High-Resolution Imaging Science Experiment (HiRISE) camera captured this image of Curiosity while the orbiter was listening to transmissions from Curiosity.Curiosity and its parachute are ; and a stretched to avoid saturation. The rover is landing on the etched plains just north of the sand dunes that fringe “Mt. Sharp” (Aeolis Mons).(Click of the descent.)The parachute appears fully inflated and performing perfectly. Details in the parachute such as the band gap at the edges and the central hole are clearly visible. The cords connecting the parachute to the backshell cannot be seen, although they were seen in the image of Phoenix descending, perhaps due to the difference in lighting angles.(The MSL suspension lines are made of material called Technora which has a tan color, while the Phoenix suspension lines were Kevlar which is yellow and this may help explain why they aren’t visible in the image.)The bright spot on the backshell containing MSL might be a specular reflection off of a shiny area. MSL was released from the backshell sometime after this image was acquired.This view is one product from an observation made by HiRISE targeted to the expected location of MSL about 1 minute prior to landing. It was captured in HiRISE CCD RED1, near the eastern edge of the swath width (there is a RED0 at the very edge). This means that MSL was a bit further east or downrange than predicted.The image scale is 33.6 cm/pixel.Late last night MRO/HiRISE captured an image of MSL descending on its parachute. Today we located another object in the image, not present in prior images, that was ejected from the backshell prior to the HiRISE image. We think the object is still in free flight, because we would expect it to disturb a larger area of dust upon impact with the surface. The HiRISE image of the Phoenix lander on its parachute also captured the heat shield in free fall.This image was acquired 24 hours after MSL landed to locate the hardware on the surface.The color strip didn't cover the hardware, but does provide of the central mound or "Mount Sharp".The viewing angle is 45 degrees, like looking out an airplane window. The subimage has been rotated 90 degrees to provide this perspective.We also have images of : , , , and the .shows NASA's Curiosity rover on the surface of Mars. The image was captured about 24 hours after the rover made its grand appearance on Mars.As the rover was guided to the surface by the descent stage, rocket thrusters blew away bright surface dust, exposing the darker material seen around the rover. The disturbance is takes on a bilateral symmetric pattern.This image was acquired from a special 41-degree roll of MRO, larger than the normal 30-degree limit. It rolled towards the west and towards the sun, which increases visible scattering by atmospheric dust as well as the amount of atmosphere the orbiter has to look through, thereby reducing the contrast of surface features. Future images will show the hardware in greater detail. Our view is tilted about 45 degrees from the surface (more than the 41-degree roll due to planetary curvature), like a view out of an airplane window. Tilt the images 90 degrees clockwise to better see the surface from this perspective. The views are primarily of the shadowed side of the rover and other objects.The image scale is 39 centimeters per pixel.HiRISE has produced a of MSL’s descent. (TIFF format)This image was given special processing by members of the HiRISE Team, that included removing detector noise and optical blur. The sharpening was achieved by converting the image to its frequency components, correcting for the minor blur that was characterized by pre-flight laboratory measurements, and converting back.shows the terrain around the rover's landing site within Gale Crater on Mars. Colors were enhanced to bring out subtle differences, showing that the landing region is not as colorful as regions to the south, closer to Mount Sharp, where Curiosity will eventually explore. In reality, the blue colors are more gray.The rover itself is seen as a double bright spot plus shadows from this perspective (looking at its shadowed side), set in the middle of the blast pattern from the descent stage seen as relatively blue colors.The dark dune fields lying between the rover and Mount Sharp can be seen in the lower portion of the picture. Mount Sharp is out of view, below the image frame. The rover is about 980 feet (300 meters) from the bottom of the picture.This image was acquired six days after Curiosity landed at an angle of 30 degrees from straight down, looking west. Another image looking more directly down will be acquired in five days, completing a stereo pair along with this image.The scale of this image cutout is about 24 inches (62 centimeter) per pixel.of Curiosity. Again, colors have been enhanced to show the subtle color variations near the rover, which result from different types of materials.The descent stage blast pattern around the rover is clearly seen as relatively blue colors (true colors would be more gray).The mountain at the center of the crater, called Mount Sharp, is located out of frame to the southeast. North is up.This image was acquired at an angle of 30 degrees from straight down, looking west. Another image looking more directly down will be acquired in five days, completing a stereo pair along with this image.The scale of this image cutout is about 12 inches (31 centimeters) per pixel.Complete observation detail image products:Other image products will be available, so check back to this page.(Note: this file is over 540MB. It is non-map projected but rotated so that north is approximately up. This file is not annotated, but MSL is in the mid-to-lower right-hand side. The CCDs do not match well at their edges due to the unique image geometry; geometrically-corrected images should be available in a few days.)(150 dpi)(300 dpi)(555MB)A image acquired by HiRISE. (Not all are MSL-specific).Written by: Alfred McEwen (6 August 2012)