Extragalactic Background Light: Measurements and Applications

TL;DR

This review summarizes measurements of the extragalactic background light across the electromagnetic spectrum, highlighting recent advances, challenges, and future directions in understanding cosmic backgrounds and their role in galaxy evolution.

Contribution

It provides a comprehensive overview of EBL measurements, discusses the implications of recent findings, and proposes future observational strategies for better understanding cosmic backgrounds.

Findings

CMB is the best-measured spectrum with <1% accuracy.

Gamma-ray observations provide indirect measurements of the cosmic optical background.

Infrared background discoveries reveal dusty, starbursting galaxies crucial for galaxy formation studies.

Abstract

This review covers the measurements related to the extragalactic background light (EBL) intensity from gamma-rays to radio in the electromagnetic spectrum over 20 decades in the wavelength. The cosmic microwave background (CMB) remains the best measured spectrum with an accuracy better than 1%. The measurements related to the cosmic optical background (COB), centered at 1 microns, are impacted by the large zodiacal light associated with interplanetary dust in the inner Solar system. The best measurements of COB come from an indirect technique involving Gamma-ray spectra of bright blazars with an absorption feature resulting from pair-production off of COB photons. The cosmic infrared background (CIB) peaking at around 100 microns established an energetically important background with an intensity comparable to the optical background. This discovery paved the path for large aperture far-infrared and sub-millimeter observations resulting in the discovery of dusty, starbursting galaxies. Their role in galaxy formation and evolution remains an active area of research in modern-day astrophysics. The extreme UV background remains mostly unexplored and will be a challenge to measure due to the high Galactic background and absorption of extragalactic photons by the intergalactic medium at these EUV/soft X-ray energies. We also summarize our understanding of the spatial anisotropies and angular power spectra of intensity fluctuations. We motivate a precise direct measurement of the COB between 0.1 to 5 microns using a small aperture telescope observing either from the outer Solar system, at distances of 5 AU or more, or out of the ecliptic plane. Other future applications include improving our understanding of the background at TeV energies and spectral distortions of CMB and CIB.