English

CDIM: Cosmic Dawn Intensity Mapper Final Report

Astrophysics of Galaxies 2019-03-20 v2 Instrumentation and Methods for Astrophysics

Abstract

The Cosmic Dawn Intensity Mapper (CDIM) will transform our understanding of the era of reionization when the Universe formed the first stars and galaxies, and UV photons ionized the neutral medium. CDIM goes beyond the capabilities of upcoming facilities by carrying out wide area spectro-imaging surveys, providing redshifts of galaxies and quasars during reionization as well as spectral lines that carry crucial information on their physical properties. CDIM will make use of unprecedented sensitivity to surface brightness to measure the intensity fluctuations of reionization on large-scales to provide a valuable and complementary dataset to 21-cm experiments. The baseline mission concept is an 83-cm infrared telescope equipped with a focal plane of 24 \times 20482 detectors capable of R = 300 spectro-imaging observations over the wavelength range of 0.75 to 7.5 {\mu}m using Linear Variable Filters (LVFs). CDIM provides a large field of view of 7.8 deg2 allowing efficient wide area surveys, and instead of moving instrumental components, spectroscopic mapping is obtained through a shift-and-stare strategy through spacecraft operations. CDIM design and capabilities focus on the needs of detecting faint galaxies and quasars during reionization and intensity fluctuation measurements of key spectral lines, including Lyman-{\alpha} and H{\alpha} radiation from the first stars and galaxies. The design is low risk, carries significant science and engineering margins, and makes use of technologies with high technical readiness level for space observations.

Keywords

Cite

@article{arxiv.1903.03144,
  title  = {CDIM: Cosmic Dawn Intensity Mapper Final Report},
  author = {Asantha Cooray and Tzu-Ching Chang and Stephen Unwin and Michael Zemcov and Andrew Coffey and Patrick Morrissey and Nasrat Raouf and Sarah Lipscy and Mark Shannon and Gordon Wu and Renyue Cen and Ranga Ram Chary and Olivie Doré and Xiaohui Fan and Giovanni G. Fazio and Steven L. Finkelstein and Caroline Heneka and Bomee Lee and Philip Linden and Hooshang Nayyeri and Jason Rhodes and Raphael Sadoun and Marta B. Silva and Hy Trac and Hao-Yi Wu and Zheng Zheng},
  journal= {arXiv preprint arXiv:1903.03144},
  year   = {2019}
}

Comments

62 pages

R2 v1 2026-06-23T08:01:39.425Z