TIME commissioning observations demonstrate a 2D map data processing pipeline achieving less than 3% calibration difference versus the Bolocam Galactic Plane Survey on G49.5.
Astrophysics and Cosmology with Line-Intensity Mapping
2 Pith papers cite this work. Polarity classification is still indexing.
abstract
Line-Intensity Mapping is an emerging technique which promises new insights into the evolution of the Universe, from star formation at low redshifts to the epoch of reionization and cosmic dawn. It measures the integrated emission of atomic and molecular spectral lines from galaxies and the intergalactic medium over a broad range of frequencies, using instruments with aperture requirements that are greatly relaxed relative to surveys for single objects. A coordinated, comprehensive, multi-line intensity-mapping experimental effort can efficiently probe over 80% of the volume of the observable Universe - a feat beyond the reach of other methods. Line-intensity mapping will uniquely address a wide array of pressing mysteries in galaxy evolution, cosmology, and fundamental physics. Among them are the cosmic history of star formation and galaxy evolution, the compositions of the interstellar and intergalactic media, the physical processes that take place during the epoch of reionization, cosmological inflation, the validity of Einstein's gravity theory on the largest scales, the nature of dark energy and the origin of dark matter.
years
2026 2verdicts
UNVERDICTED 2representative citing papers
Reviews how cross-correlating SKAO 21-cm LIM with other lines like [CII], CO, and Ly-alpha can mitigate systematics, enhance sensitivity, and disentangle cosmological from astrophysical parameters.
citing papers explorer
-
TIME Commissioning Observations: II. On-sky Characterization and the 2D Map Data Processing Pipeline
TIME commissioning observations demonstrate a 2D map data processing pipeline achieving less than 3% calibration difference versus the Bolocam Galactic Plane Survey on G49.5.