ISRO’s Aditya-L1: As of January 8, 2024, the Indian Space Research Organisation (ISRO) has once again etched its name in the annals of space exploration with the successful placement of the Aditya-L1 spacecraft in a halo orbit around the Lagrangian point (L1). This remarkable feat, achieved on January 6, 2024, underscores ISRO’s commitment to pushing the boundaries of space science and technology.
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The Aditya-L1 mission, launched on September 2, 2023, has reached a pivotal juncture by securing its position in a halo orbit around L1, located approximately 1.5 million kilometers from Earth. This strategic positioning offers the spacecraft an unparalleled view of the sun, paving the way for groundbreaking observations and scientific discoveries.
The successful orbital insertion, meticulously executed by ISRO scientists and engineers at the ISRO Telemetry Tracking and Command Network (ISTRAC) in Bengaluru, exemplifies the organization’s precision in space navigation. The Prime Minister, Narendra Modi, has lauded the achievement, recognizing the dedication and expertise of Indian scientists and expressing confidence in India’s capability to embark on future interplanetary missions.
The Aditya-L1 mission, India’s inaugural solar observatory, carries seven advanced payloads designed to observe various layers of the sun using electromagnetic and particle detectors. Positioned at L1, the spacecraft enables direct views of the sun by four payloads, while the remaining three conduct in-situ studies of particles and fields.
Over its mission lifespan of five years, Aditya-L1 aims to unravel critical aspects of solar phenomena, including coronal heating, coronal mass ejections, space weather dynamics, and particle and field propagation. The information gathered will significantly contribute to advancing our understanding of the sun’s behavior and its impact on space weather.
The successful insertion of Aditya-L1 into a halo orbit is a testament to ISRO’s prowess in executing complex orbital maneuvers. This mission phase, demanding precise navigation and control, showcases the organization’s technical competence and further enhances confidence in handling future interplanetary missions.
Moreover, ISRO’s explanation of Lagrange points emphasizes their critical role in enabling spacecraft to maintain positions with reduced fuel consumption in gravitational systems. The L1 point’s unique positioning, approximately 1.5 million km from Earth, provides continuous solar observation without the hindrance of occultation or eclipse.
India’s pioneering solar mission, Aditya-L1, has reached a significant milestone by successfully entering a halo orbit around the Lagrangian point (L1), marking a momentous achievement for the Indian Space Research Organisation (ISRO). Launched on September 2, 2023, it took 127 days for Aditya-L1 to cover the 1.5 million km distance to the L1 point.
The insertion into the halo orbit, a crucial phase of the mission, was meticulously executed by ISRO scientists and engineers at the ISRO Telemetry Tracking and Command Network (ISTRAC) in Bengaluru. The firing maneuver on January 6 was pivotal in placing the spacecraft precisely in the halo orbit.
ISRO Chairman S Somnath emphasized the precision of the process, stating, “Today’s event was to place the Aditya L-1 in the precise halo orbit.” He explained that adjustments were necessary to ensure the spacecraft’s accurate placement and prevent any deviation from the L1 point.
Prime Minister Narendra Modi applauded the achievement, stating, “India creates yet another landmark. India’s first solar observatory Aditya-L1 reaches its destination.” He commended the dedication of scientists in realizing this complex space mission.
The halo orbit, chosen strategically for Aditya-L1, is a periodic three-dimensional orbit around L1, involving the Sun, Earth, and the spacecraft. Placed at a distance of approximately 1.5 million km from Earth, this orbit ensures a mission lifetime of 5 years, minimizing fuel consumption and providing an uninterrupted view of the Sun.
ISRO highlighted the complexity of the halo orbit insertion, requiring precise navigation and control. Continuous monitoring and adjustments of the spacecraft’s speed and position were carried out using onboard thrusters, showcasing ISRO’s capabilities in intricate orbital maneuvers.
Aditya-L1, India’s first space-based solar observatory, carries seven payloads designed to observe the photosphere, chromosphere, and the outermost layer of the sun (corona) using electromagnetic and particle detectors. Positioned at the unique vantage point of L1, four payloads directly observe the sun, while three payloads conduct in-situ studies of particles and fields at the L1 point.
The satellite, with a mission life of five years, is expected to provide crucial information on various solar phenomena, including coronal heating, coronal mass ejection, pre-flare and flare activities, dynamics of space weather, and propagation of particles and fields.
ISRO explained that the L1 point, a Lagrange point in a two-body gravitational system like the sun and Earth, is strategically chosen for reduced fuel consumption, providing a stable position for the spacecraft. Aditya-L1’s successful journey to the L1 point adds to the operational spacecraft at L1, joining WIND, Solar and Heliospheric Observatory (SOHO), Advanced Composition Explorer (ACE), and Deep Space Climate Observatory (DSCOVR).
The timeline of Aditya-L1’s journey to the Lagrangian point (L1) includes several critical maneuvers conducted by ISRO, ensuring the spacecraft’s trajectory alignment for its mission objectives. The successful completion of these maneuvers culminated in the spacecraft reaching its designated orbit around the L1 point.
Lagrange points, as defined by ISRO, represent specific positions in space within a two-body gravitational system where a small object naturally tends to remain. These points, applicable to systems like the sun and Earth, offer spacecraft the advantage of staying with reduced fuel consumption. In total, there are five Lagrange points denoted as L1, L2, L3, L4, and L5.
The L1 point, situated along the sun-earth line approximately 1.5 million km from Earth, holds a strategic position at around 1% of the earth-sun distance. Placing a satellite in a halo orbit around L1 provides a significant benefit: continuous observation of the sun without any occultation or eclipse, ensuring uninterrupted monitoring of solar activities.
Currently, four operational spacecraft occupy L1, namely WIND, Solar and Heliospheric Observatory (SOHO), Advanced Composition Explorer (ACE), and Deep Space Climate Observatory (DISCOVER).
Now, let’s delve into the timeline of Aditya-L1’s journey to the Lagrangian point (L1).
On SEPTEMBER 2, the Aditya-L1 spacecraft, launched from Sriharikota by the PSLV, entered an elliptical orbit of 235Ă—19500 km around the Earth. Following this, ISTRC in Bengaluru executed four earth-bound maneuvers between SEPTEMBER 3 and SEPTEMBER 15.
SEPTEMBER 3 marked the first maneuver, placing the spacecraft in a 245 km x 22459 km orbit. Subsequently, on SEPTEMBER 5, the second maneuver positioned the spacecraft in a 282 km x 40225 km orbit. The third maneuver on SEPTEMBER 10 set the spacecraft in a 296 km x 71767 km orbit, and the fourth maneuver on SEPTEMBER 15 adjusted the orbit to 256 km x 121973 km.
On SEPTEMBER 19, Aditya-L1 underwent the Trans-Lagrangian1 insertion maneuver, marking the initiation of its 110-day trajectory toward the destination around the L1 point.
Aspiring scientists and engineers, the recent success of Aditya-L1 serves as a compelling reason to consider a career with ISRO. Being part of an organization that consistently achieves milestones in space exploration offers a unique opportunity to contribute to cutting-edge scientific endeavors.
The ISRO Scientist/Engineer exam, held on January 7, 2024, serves as the gateway to becoming part of this prestigious organization. The journey toward joining ISRO’s scientific odyssey begins with thorough preparation, dedication, and a commitment to excellence. The examination is a stepping stone to participating in groundbreaking missions, much like Aditya-L1 and contributing to India’s legacy in space exploration.
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The successful placement of Aditya-L1 in a halo orbit is a testament to ISRO’s commitment to excellence in space exploration. Aspiring candidates are encouraged to embrace the opportunity to be part of ISRO’s scientific legacy by preparing diligently for the ISRO Scientist/Engineer exam. PracticeMock’s FREE mock test is a valuable resource to support this journey toward success. Join the ranks of ISRO’s visionary scientists and engineers, contributing to India’s continued advancements in space science and technology. Want to be part of the ISRO Programmes?
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