HiRISE
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About HiRISE
HiRISE (High Resolution Imaging Science Experiment)
HiRISE has photographed hundreds of targeted swaths of Mars' surface in unprecedented detail.
The HiRISE camera has provided the highest-resolution images yet from martian orbit.
The camera operates in visible wavelengths, the same as human eyes, but with a telescopic lens that produces images at resolutions never before seen in planetary exploration missions. These high-resolution images enable scientists to distinguish 1-meter-size (about 3-foot-size) objects on Mars and to study the morphology (surface structure) in a much more comprehensive manner than ever before.
HiRISE also makes observations at near-infrared wavelengths to obtain information on the mineral groups present. From an altitude that varies from 200 to 400 kilometers (about 125 to 250 miles) above Mars, HiRISE acquires surface images containing individual, basketball-size (30 to 60 centimeters, or 1 to 2 feet wide) pixel elements, allowing surface features 4 to 8 feet across to be resolved. These new, high-resolution images are providing unprecedented views of layered materials, gullies, channels, and other science targets, in addition to characterizing possible future landing sites.
HiRISE is operated by the Lunar and Planetary Laboratory at the University of Arizona.
MRO is operated by the Jet Propulsion Laboratory.
HiRISE has photographed hundreds of targeted swaths of Mars' surface in unprecedented detail.
The HiRISE camera has provided the highest-resolution images yet from martian orbit.
The camera operates in visible wavelengths, the same as human eyes, but with a telescopic lens that produces images at resolutions never before seen in planetary exploration missions. These high-resolution images enable scientists to distinguish 1-meter-size (about 3-foot-size) objects on Mars and to study the morphology (surface structure) in a much more comprehensive manner than ever before.
HiRISE also makes observations at near-infrared wavelengths to obtain information on the mineral groups present. From an altitude that varies from 200 to 400 kilometers (about 125 to 250 miles) above Mars, HiRISE acquires surface images containing individual, basketball-size (30 to 60 centimeters, or 1 to 2 feet wide) pixel elements, allowing surface features 4 to 8 feet across to be resolved. These new, high-resolution images are providing unprecedented views of layered materials, gullies, channels, and other science targets, in addition to characterizing possible future landing sites.
HiRISE is operated by the Lunar and Planetary Laboratory at the University of Arizona.
MRO is operated by the Jet Propulsion Laboratory.
HiRISE: PSP_003790_1755_COLOR
Image Data
Click on the field name to see the glossary definition for that field.
Name | Value | Type | Idx |
---|---|---|---|
Image ID | PSP_003790_1755_COLOR | Basic | 10 |
Emission Angle | 4.48228° | Basic | 11 |
Incidence Angle | 51.2902° | Basic | 12 |
Line Samples | 13085 | Basic | 13 |
Local Time | 15.331 | Basic | 14 |
Mars Year | 28 | Advanced | 15 |
Mission Phase | Primary Science Phase | Basic | 16 |
North Azimuth | 270° | Basic | 17 |
Orbit | 3790 | Basic | 18 |
Phase Angle | 55.5696 | Basic | 19 |
Center Latitude | -4.61245° | Basic | 20 |
Center Longitude | 296.905° | Basic | 21 |
Description | Bright fine layers in Juventae Chasma | Basic | 22 |
Slant Distance | 266.869 | Basic | 23 |
Solar Longitude | 240.436° | Basic | 24 |
Spacecraft Altitude | 266.492 | Basic | 25 |
Spacecraft Clock Start Count | 863980041:13716 | Basic | 26 |
Start Time | 2007-05-18T18:27:01 | Basic | 27 |
Stereo Flag | YES | Basic | 28 |
Stop Time | 2007-05-18T18:27:07 | Basic | 29 |
Subsolar Azimuth | 155.779° | Basic | 30 |
Subsolar Latitude | -21.7307° | Basic | 31 |
Subspacecraft Latitude | -4.5756° | Basic | 32 |
Subspacecraft Longitude | 297.231° | Basic | 33 |
Target Name | MARS | Basic | 34 |
Volume Id | MROHR_0001 | Basic | 35 |
About HiRISE
HiRISE (High Resolution Imaging Science Experiment)
HiRISE has photographed hundreds of targeted swaths of Mars' surface in unprecedented detail.
The HiRISE camera has provided the highest-resolution images yet from martian orbit.
The camera operates in visible wavelengths, the same as human eyes, but with a telescopic lens that produces images at resolutions never before seen in planetary exploration missions. These high-resolution images enable scientists to distinguish 1-meter-size (about 3-foot-size) objects on Mars and to study the morphology (surface structure) in a much more comprehensive manner than ever before.
HiRISE also makes observations at near-infrared wavelengths to obtain information on the mineral groups present. From an altitude that varies from 200 to 400 kilometers (about 125 to 250 miles) above Mars, HiRISE acquires surface images containing individual, basketball-size (30 to 60 centimeters, or 1 to 2 feet wide) pixel elements, allowing surface features 4 to 8 feet across to be resolved. These new, high-resolution images are providing unprecedented views of layered materials, gullies, channels, and other science targets, in addition to characterizing possible future landing sites.
HiRISE is operated by the Lunar and Planetary Laboratory at the University of Arizona.
MRO is operated by the Jet Propulsion Laboratory.
HiRISE has photographed hundreds of targeted swaths of Mars' surface in unprecedented detail.
The HiRISE camera has provided the highest-resolution images yet from martian orbit.
The camera operates in visible wavelengths, the same as human eyes, but with a telescopic lens that produces images at resolutions never before seen in planetary exploration missions. These high-resolution images enable scientists to distinguish 1-meter-size (about 3-foot-size) objects on Mars and to study the morphology (surface structure) in a much more comprehensive manner than ever before.
HiRISE also makes observations at near-infrared wavelengths to obtain information on the mineral groups present. From an altitude that varies from 200 to 400 kilometers (about 125 to 250 miles) above Mars, HiRISE acquires surface images containing individual, basketball-size (30 to 60 centimeters, or 1 to 2 feet wide) pixel elements, allowing surface features 4 to 8 feet across to be resolved. These new, high-resolution images are providing unprecedented views of layered materials, gullies, channels, and other science targets, in addition to characterizing possible future landing sites.
HiRISE is operated by the Lunar and Planetary Laboratory at the University of Arizona.
MRO is operated by the Jet Propulsion Laboratory.