Chandrayaan-3 | RAMBHA aboard Vikram completes first in-situ measurements of lunar plasma over the moon

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Chandrayaan-3 | RAMBHA aboard Vikram completes first in-situ measurements of lunar plasma over the moon


The Radio Anatomy of Moon Bound Hypersensitive ionosphere and Atmosphere – Langmuir Probe (RAMBHA-LP) payload on board Chandrayaan-3’s lander Vikram has accomplished the first in-situ measurements of the surface-bound lunar plasma surroundings over the south polar area.

The RAMBHA-Langmuir Probe (RAMBHA-LP), named after American chemist and physicist Irving Langmuir, who was awarded the Nobel Prize in Chemistry, is a tool used for characterising a plasma.

“The initial assessment indicates that the plasma encompassing the lunar surface is relatively sparse, characterised by a number density ranging from approximately 5 to 30 million electrons per cubic meter. This evaluation specifically pertains to the early stages of the lunar daytime. The probe operates without interruption, aiming to explore the changes occurring in the near-surface plasma environment throughout the lunar day. These ongoing observations hold significant implications for comprehending the process of charging within the lunar near-surface region, particularly in response to the fluctuations in solar space weather conditions,” ISRO stated on Thursday.

According to the area company, the machine encompasses a 5 cm metallic spherical probe mounted on a 1-metre increase connected to the Chandrayaan-3 lander’s higher deck.

“The probe is deployed using a hold-release mechanism after the lander’s lunar touchdown. The extended boom length ensures that the spherical probe operates within the undisturbed lunar plasma environment, isolated from the lander’s body. The system can detect minute return currents, as low as pico-amperes, with a dwell time of 1 millisecond. By applying a sweeping bias potential ranging from -12 to +12 V in increments of 0.1 V to the Langmuir probe, the system can accurately determine ion and electron densities as well as their energies based on the measured return current,” ISRO added.

Development of RAMBHA-LP was led by Space Physics Laboratory (SPL), Vikram Sarabhai Space Centre (VSSC), Thiruvananthapuram.

Relatively sparse

“The initial assessment indicates that the plasma near the lunar surface is relatively sparse. These quantitative measurements potentially assist in mitigating the noise that lunar plasma introduces into radio wave communication. Also, they could contribute to the enhanced designs for upcoming lunar visitors,” ISRO posted on X (previously Twitter).

Continuing with the scientific experiments, Instrument for Lunar Seismic Activity (ILSA) payload has recorded the vibrations occurring resulting from the actions of rover and different payloads.

Additionally, it has recorded an occasion, showing to be a pure one, on August 26, 2023. The supply of this occasion is underneath investigation, ISRO stated.

Earlier in the day, ISRO stated that one other instrument on board the Chandrayaan-3 rover Pragyan has confirmed the presence of Sulphur (S) in the south polar area. On August 28, the Laser-Induced Breakdown Spectroscopy (LIBS) instrument aboard Pragyan confirmed the presence of sulphur in the area unambiguously. Now the Alpha Particle X-ray Spectroscope (APXS) instrument has additionally confirmed the presence of sulphur.

“Another instrument on board the rover confirms the presence of sulphur (S) in the region, through another technique. The Alpha Particle X-ray Spectroscope (APXS) has detected S, as well as other minor elements. This finding by Ch-3 compels scientists to develop fresh explanations for the source of sulphur (S) in the area: intrinsic?, volcanic?, meteoritic?,……?.” ISRO posted on X.

ISRO stated the APXS instrument was greatest suited to in-situ evaluation of the elemental composition of soil and rocks on the floor of planetary our bodies having little environment, akin to the moon.

It carries radioactive sources that emit alpha particles and X-rays onto the floor pattern. The atoms current in the pattern in flip emit attribute X-ray traces akin to the components current. By measuring the energies and intensities of these attribute X-rays, researchers can discover the components current and their abundances.

“APXS observations have discovered the presence of interesting minor elements, including sulphur, apart from the major expected elements such as aluminium, silicon, calcium and iron. It may be recalled that the LIBS instrument on board the rover also confirmed the presence of sulphur. Detailed scientific analysis of these observations are in progress,” the area company stated.

APXS is developed by the Physical Research Laboratory (PRL), Ahmedabad, with help from the Space Application Centre (SAC) Ahmedabad, whereas the U.R. Rao Satellite Centre (URSC), Bengaluru, constructed the deployment mechanism.

ISRO stated that Pragyan, with its scientific devices, is looking for solutions to questions like “What are lunar soil and rocks made of in the south polar region and how’s it different from other highland regions?”

ISRO additionally launched a video exhibiting an automatic hinge mechanism rotating the 18 cm tall APXS, aligning the detector head to be roughly 5 cm in proximity to the lunar floor. The video is captured by the lander digital camera.

The area company additionally shared a video of the rover rotating in search of a secure route which was captured by a lander imager digital camera.





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