The Indian Space Research Organisation (ISRO) has achieved a remarkable milestone in space weather monitoring through its innovative Plasma Analyser Package for Aditya (PAPA) aboard the Aditya-L1 spacecraft. This advanced instrument has effectively detected the impact of coronal mass ejections (CMEs), a significant solar phenomenon, marking a groundbreaking accomplishment in the field of space science.
Coronal Mass Ejections are substantial bursts of solar wind, plasma, and magnetic fields that rise above the solar corona or are released into space. These ejections can dramatically influence space weather, potentially disrupting satellite operations, communications, and power grids on Earth.
PAPA is specifically engineered to analyze the electrons and ions of solar wind, with a focus on the low energy range. It comprises two primary sensors:
Additionally, these sensors can determine the direction of incoming solar wind particles, significantly enhancing the precision of solar wind analysis.
Since its operational commencement on December 12, 2023, PAPA has been continuously monitoring solar wind electrons and ions, validating the efficacy of its design across all operational modes. The successful detection of CME impacts, particularly during February 10-11, 2024, highlights PAPA's essential role in observing space weather conditions. Its findings are crucial for analyzing solar phenomena and significantly advance our understanding of the Sun's influence on space weather.
ISRO’s deployment of PAPA on the Aditya-L1 spacecraft marks a significant advancement in space weather research. By providing in-depth measurements of solar wind particles, PAPA strengthens our ability to forecast and mitigate the effects of solar events on both space and ground-based technologies. This achievement not only showcases ISRO’s capabilities in advanced space research but also contributes to global efforts in understanding and managing risks associated with space weather.
Q1. What is the function of PAPA in the Aditya-L1 mission?
Answer: PAPA measures solar wind particles, specifically electrons and ions, enhancing our understanding of solar phenomena and their impact on space weather.
Q2. How do coronal mass ejections affect Earth?
Answer: CMEs can disrupt satellite operations, communications, and power grids, posing risks to technology on Earth.
Q3. When was PAPA operational?
Answer: PAPA began its operations on December 12, 2023, continuously monitoring solar wind conditions since then.
Q4. What are the main sensors used in PAPA?
Answer: PAPA utilizes SWEEP and SWICAR sensors to analyze solar wind electrons and ions, respectively, providing critical data on their energy and mass.
Q5. Why is PAPA's data important for space weather monitoring?
Answer: PAPA's data is vital for predicting and mitigating the effects of solar phenomena on technology and infrastructure, thereby enhancing safety.
Question 1: What is the primary goal of the Plasma Analyser Package for Aditya (PAPA)?
A) To analyze cosmic rays
B) To measure solar wind particles
C) To monitor planetary atmospheres
D) To study lunar geology
Correct Answer: B
Question 2: Which sensor in PAPA measures electrons within the energy range of 10 eV to 3 keV?
A) SWICAR
B) SWEEP
C) Solar Wind Detector
D) Cosmic Ray Sensor
Correct Answer: B
Question 3: What phenomenon is associated with potential disruptions to satellite operations?
A) Solar Flares
B) Coronal Mass Ejections
C) Lunar Eclipses
D) Meteor Showers
Correct Answer: B
Question 4: When did PAPA's operations commence?
A) January 1, 2023
B) December 12, 2023
C) February 10, 2024
D) March 15, 2024
Correct Answer: B
Question 5: What is the significance of measuring the direction of solar wind particles?
A) It helps in predicting weather on Earth.
B) It enhances the accuracy of solar wind analysis.
C) It allows for better satellite manufacturing.
D) It improves communication systems.
Correct Answer: B
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