The Critical Role of LIGO-India in the Era of Next-Generation Observatories
Abstract
We examine the role of LIGO-India in facilitating multi-messenger astronomy in the era of next generation observatories. A network with two L-shaped Cosmic Explorer (CE) detectors and one triangular Einstein Telescope (ET) would precisely localize nearly the entire annual binary neutron star merger population up to a redshift of 0.5--over 10,000 events would be localized within 10\ deg2, including approximately 150 events within 0.1\ deg2. Luminosity distance would be measured to within 10% for over 9,000 events and within 1% for 100 events. Surprisingly, replacing the 20 km CE detector with LIGO-India operating at A sensitivity (I) yields nearly identical performance. The factor-of-five shorter arms are offset by a fourfold increase in baseline relative to a second CE in the U.S., preserving localization accuracy, with over 9,000 events within 10\ deg2 and 90 events within 0.1\ deg2. This configuration detects 6,000 events with luminosity distance uncertainties under 10%, including 50 events with under 1%. Both networks provide O(100) early-warning detections up to 10 minutes before merger, with localization areas ≤ 10\ deg2. While I enables excellent localization and early warnings, its shorter arms and narrower sensitivity band would limit its reach for other science goals, such as detecting population III binary black hole mergers at z 10, neutron star mergers at z 2, or constraining cosmological parameters.
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