Context:
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Scientists are proposing a moon-based gravitational-wave observatory to detect extremely faint ripples in spacetime that remain inaccessible from Earth.
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The proposed Laser Interferometer Lunar Antenna (LILA) aims to explore the sub-hertz (decihertz) gravitational-wave spectrum, opening a new observational window into the universe.
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This initiative complements existing and planned Earth- and space-based detectors, marking a major leap in gravitational-wave astronomy.
Key Highlights:
What is LILA (Laser Interferometer Lunar Antenna)?
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A proposed gravitational-wave detector to be installed on the Moon.
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Designed to detect sub-hertz / decihertz frequency gravitational waves, which are currently poorly explored.
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LILA Pioneer, the first phase, could be built within this decade using lunar landers from:
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Blue Origin
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Intuitive Machines
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India’s Chandrayaan programme
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Why the Moon?
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Permanently shadowed polar regions offer:
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Extremely low seismic noise
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Natural vacuum, ideal for laser interferometry
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Thermal stability, improving detector sensitivity
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Absence of atmospheric and human-made disturbances enhances signal clarity.
Gravitational-Wave Detection Landscape
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LIGO (ground-based):
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Sensitive to 100–1,000 hertz frequencies.
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Detected gravitational waves for the first time in 2015.
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LISA (space-based, 2030s):
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Will observe waves in the 0.1 millihertz to 0.1 hertz range.
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LIGO-India:
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An advanced observatory under construction in Hingoli district, Maharashtra.
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Expected completion: 2030.
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Gap Identified:
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The decihertz band (0.1–10 hertz) lies between LIGO and LISA sensitivity ranges and remains largely unexplored.
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Scientific Importance of the Decihertz Band
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Enables study of:
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Intermediate-mass black holes, thought to be precursors of supermassive black holes.
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Early inspiral phases of compact binaries.
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Enhances understanding of cosmic evolution and structure formation.
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Proposed parallel detectors:
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DECIGO (Japan)
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TianGo (U.S.-led)
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LGWA (Lunar Gravitational-wave Antenna)
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Scientific Principles Involved
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Gravitational Waves:
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Predicted by Albert Einstein’s General Theory of Relativity.
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Generated by accelerating massive objects such as black hole mergers.
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Interferometry:
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Laser beams measure minuscule changes in distance caused by spacetime distortions.
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Pulsars:
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Monitoring pulsar timing may allow scientists to use the entire Milky Way as a gravitational-wave detector.
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UPSC Relevance (GS-wise):
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GS Paper 3 – Science & Technology
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Prelims:
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Gravitational waves, interferometers, spacetime, pulsars.
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LIGO, LISA, Chandrayaan, LIGO-India.
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Mains:
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Importance of big science missions in advancing fundamental physics.
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India’s role in global space and astrophysics research.
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Technological challenges and strategic significance of lunar exploration.
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