See First Illuminated Photo Of Lunar Surface Taken By Chandrayaan-2
Imaging Infrared Spectrometer (IIRS) on-board Chandrayaan-2 is designed to measure the reflected sunlight and emitted part of Moon light from the lunar surface in narrow and contiguous spectral channels (bands) ranging from ~800 – 5000 nanometer (0.8-5.0 micrometer (µm)). It uses a grating to split and disperse the reflected sunlight (and emitted component) into different spectral bands. The major objective of IIRS is to understand the origin and evolution of the Moon in a geologic context by mapping the lunar surface mineral and volatile composition using signatures in the reflected solar spectrum.
The first illuminated image of the lunar surface was acquired by IIRS. The image covers part of the lunar farside in the northern hemisphere. Few prominent craters are seen in the image (Sommerfield, Stebbins and Kirkwood).
Preliminary analysis suggests that IIRS could successfully measure the variations in the reflected solar radiation that bounces off the lunar surface from different kinds of surface types, namely, crater central peaks (e.g., Stebbins), crater floors (e.g., Stebbins and Sommerfield), very fresh reworked ejecta associated with small craterlets within the crater floor of a large crater (e.g., Sommerfield) and also the sun-illuminated inner rims of craters (e.g., Kirkwood). The variations in the spectral radiance are primarily due to the mineralogical/compositional variations that exist in the lunar surface and also due to the effect of space weathering. More detailed analysis that follows, is expected to yield important results on the heterogeneity of lunar surface composition.
NEW DELHI:
The Indian Space Research Organisation has released first illuminated images of the lunar surface, acquired by the Imaging Infrared Spectrometer payload, onboard the Chandrayaan-2, that is circling the Moon. The image covers "part of the lunar farside in the northern hemisphere, covering a few prominent crates," ISRO said in an official release.
According to ISRO, the Imaging Infrared Spectrometer or IIRS is designed to measure reflected sunlight and emitted part of Moon light from the lunar surface. The image shows a graph indicating the region of reflected solar radiation and the region of reflected and thermal emission component among other details.
See the first illuminated image of the lunar surface acquired by #Chandrayaan2’s IIRS payload. IIRS is designed to measure reflected sunlight from the lunar surface in narrow and contiguous spectral channels.
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Chandrayaan-2 begins spectroscopic studies of the lunar surface
The first illuminated image of the lunar surface was acquired by IIRS. The image covers part of the lunar farside in the northern hemisphere. Few prominent craters are seen in the image (Sommerfield, Stebbins and Kirkwood).
Preliminary analysis suggests that IIRS could successfully measure the variations in the reflected solar radiation that bounces off the lunar surface from different kinds of surface types, namely, crater central peaks (e.g., Stebbins), crater floors (e.g., Stebbins and Sommerfield), very fresh reworked ejecta associated with small craterlets within the crater floor of a large crater (e.g., Sommerfield) and also the sun-illuminated inner rims of craters (e.g., Kirkwood). The variations in the spectral radiance are primarily due to the mineralogical/compositional variations that exist in the lunar surface and also due to the effect of space weathering. More detailed analysis that follows, is expected to yield important results on the heterogeneity of lunar surface composition.
NEW DELHI:
The Indian Space Research Organisation has released first illuminated images of the lunar surface, acquired by the Imaging Infrared Spectrometer payload, onboard the Chandrayaan-2, that is circling the Moon. The image covers "part of the lunar farside in the northern hemisphere, covering a few prominent crates," ISRO said in an official release.
According to ISRO, the Imaging Infrared Spectrometer or IIRS is designed to measure reflected sunlight and emitted part of Moon light from the lunar surface. The image shows a graph indicating the region of reflected solar radiation and the region of reflected and thermal emission component among other details.
See the first illuminated image of the lunar surface acquired by #Chandrayaan2’s IIRS payload. IIRS is designed to measure reflected sunlight from the lunar surface in narrow and contiguous spectral channels.
28.7K
5:57 PM - Oct 17, 2019
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5,648 people are talking about this
Chandrayaan-2's Vikram lander has been lying on the lunar surface since India attempted to soft-land it on the Moon last month, but failed. While the space agency continues its efforts in trying to establish contact with the lander, NASA had, earlier this month, confirmed that Vikram had a "hard landing" and that they have been unsuccessful in determining its location. NASA had also released pictures of the targeted landing site.
In an official statement termed "preliminary analysis of Chandrayaan-2 Imaging Infrared Spectrometer (IIRS) data", ISRO highlighted the process by which the Imaging Infrared Spectrometer reflects sunlight into various spectral bands.
"It uses a grating to split and disperse the reflected sunlight (and emitted component) into different spectral bands. The major objective of IIRS is to understand the origin and evolution of the Moon in a geologic context by mapping the lunar surface mineral and volatile composition using signatures in the reflected solar spectrum," the statement said.
The image also underlines some of the prominent craters or bowl-shaped depressions present including Sommerfield, Stebbins and Kirkwood. "Preliminary analysis suggests that IIRS could successfully measure the variations in the reflected solar radiation that bounces off the lunar surface from different kinds of surface types," ISRO said adding that further detailed analysis that follows, is expected to "yield important results on the heterogeneity of lunar surface composition."
Lunar lander Vikram, one of three components of the Chandrayaan-2 spacecraft, had been scheduled to soft land on the moon at 1.55 am on September 6 but stopped transmitting 2.1 km from the surface.
India had expected to make space history with the Rs. 1,000-crore Chandrayaan-2 mission by being the first country to land near the South Pole of the Moon.
In a statement to national broadcaster Doordarshan, ISRO chief K Sivan had blamed faulty execution of the last stage of the operation for the loss of communication.
In an official statement termed "preliminary analysis of Chandrayaan-2 Imaging Infrared Spectrometer (IIRS) data", ISRO highlighted the process by which the Imaging Infrared Spectrometer reflects sunlight into various spectral bands.
"It uses a grating to split and disperse the reflected sunlight (and emitted component) into different spectral bands. The major objective of IIRS is to understand the origin and evolution of the Moon in a geologic context by mapping the lunar surface mineral and volatile composition using signatures in the reflected solar spectrum," the statement said.
The image also underlines some of the prominent craters or bowl-shaped depressions present including Sommerfield, Stebbins and Kirkwood. "Preliminary analysis suggests that IIRS could successfully measure the variations in the reflected solar radiation that bounces off the lunar surface from different kinds of surface types," ISRO said adding that further detailed analysis that follows, is expected to "yield important results on the heterogeneity of lunar surface composition."
Lunar lander Vikram, one of three components of the Chandrayaan-2 spacecraft, had been scheduled to soft land on the moon at 1.55 am on September 6 but stopped transmitting 2.1 km from the surface.
India had expected to make space history with the Rs. 1,000-crore Chandrayaan-2 mission by being the first country to land near the South Pole of the Moon.
In a statement to national broadcaster Doordarshan, ISRO chief K Sivan had blamed faulty execution of the last stage of the operation for the loss of communication.