<p>The X-ray spectrometer 'CLASS' on the Chandrayaan-2 orbiter has mapped an abundance of sodium on the moon for the first time, according to the Indian Space Research Organisation (ISRO).</p>.<p>Chandrayaan-1 X-ray Fluorescence Spectrometer (C1XS) detected sodium from its characteristic line in X-rays which opened up the possibility of mapping the amount of sodium on the moon, ISRO said.</p>.<p>In a recent work published in 'The Astrophysical Journal Letters', Chandrayaan-2 mapped the abundance of sodium on the Moon for the very first time using CLASS (Chandrayaan-2 Large Area Soft X-ray Spectrometer), the national space agency said in a statement on Friday.</p>.<p><strong>Also Read | <a href="https://www.deccanherald.com/international/world-news-politics/nasa-eyes-november-for-launch-attempt-of-moon-rocket-1149914.html">NASA eyes November for launch attempt of Moon rocket</a></strong></p>.<p>"Built at the U R Rao Satellite Centre of ISRO in Bengaluru, CLASS provides clean signatures of the sodium line thanks to its high sensitivity and performance," the statement said.</p>.<p>The study finds that a part of the signal could be arising from a thin veneer of sodium atoms weakly bound to the lunar grains.</p>.<p>These sodium atoms can be nudged out of the surface by solar wind or ultraviolet radiation more easily than if they were part of the lunar minerals. Also shown is a diurnal variation of the surface sodium that would explain the continuous supply of atoms to the exosphere, sustaining it, the statement said.</p>.<p>An interesting aspect that widens the interest in this alkali element is its presence in the wispy atmosphere of the moon, a region so thin that the atoms there rarely meet.</p>.<p>This region termed an 'exosphere', begins at the surface of the moon and extends several thousand kilometres merging into the interplanetary space, the statement noted.</p>.<p>"The new findings from Chandrayaan-2 provide an avenue to study surface-exosphere interaction on the moon which would aid the development of similar models for mercury and other airless bodies in our solar system and beyond," the ISRO said.</p>
<p>The X-ray spectrometer 'CLASS' on the Chandrayaan-2 orbiter has mapped an abundance of sodium on the moon for the first time, according to the Indian Space Research Organisation (ISRO).</p>.<p>Chandrayaan-1 X-ray Fluorescence Spectrometer (C1XS) detected sodium from its characteristic line in X-rays which opened up the possibility of mapping the amount of sodium on the moon, ISRO said.</p>.<p>In a recent work published in 'The Astrophysical Journal Letters', Chandrayaan-2 mapped the abundance of sodium on the Moon for the very first time using CLASS (Chandrayaan-2 Large Area Soft X-ray Spectrometer), the national space agency said in a statement on Friday.</p>.<p><strong>Also Read | <a href="https://www.deccanherald.com/international/world-news-politics/nasa-eyes-november-for-launch-attempt-of-moon-rocket-1149914.html">NASA eyes November for launch attempt of Moon rocket</a></strong></p>.<p>"Built at the U R Rao Satellite Centre of ISRO in Bengaluru, CLASS provides clean signatures of the sodium line thanks to its high sensitivity and performance," the statement said.</p>.<p>The study finds that a part of the signal could be arising from a thin veneer of sodium atoms weakly bound to the lunar grains.</p>.<p>These sodium atoms can be nudged out of the surface by solar wind or ultraviolet radiation more easily than if they were part of the lunar minerals. Also shown is a diurnal variation of the surface sodium that would explain the continuous supply of atoms to the exosphere, sustaining it, the statement said.</p>.<p>An interesting aspect that widens the interest in this alkali element is its presence in the wispy atmosphere of the moon, a region so thin that the atoms there rarely meet.</p>.<p>This region termed an 'exosphere', begins at the surface of the moon and extends several thousand kilometres merging into the interplanetary space, the statement noted.</p>.<p>"The new findings from Chandrayaan-2 provide an avenue to study surface-exosphere interaction on the moon which would aid the development of similar models for mercury and other airless bodies in our solar system and beyond," the ISRO said.</p>