News from Cosmic Gamma-ray Line Observations

TL;DR

Gamma-ray line observations at MeV energies provide crucial insights into nuclear reactions in stars, supernovae, and positron annihilation, revealing details about cosmic nucleosynthesis and matter recycling in the galaxy.

Contribution

This paper reviews recent advances in gamma-ray line observations, highlighting new measurements of supernova radioactivity, galactic nucleosynthesis, and positron annihilation sources.

Findings

Detection of gamma rays from supernova decay products like $^{56}$Ni, $^{56}$Co, and $^{44}$Ti.

Identification of interstellar cavities and superbubbles through $^{26}$Al gamma-ray spectroscopy.

New insights into the sources of galactic positrons from microquasar observations.

Abstract

The measurement of gamma rays at MeV energies from cosmic radioactivities is one of the key tools for nuclear astrophysics, in its study of nuclear reactions and how they shape objects such as massive stars and supernova explosions. Additionally, the unique gamma-ray signature from the annihilation of positrons falls into this same astronomical window, and positrons are often produced from radioactive beta decays. Nuclear gamma-ray telescopes face instrumental challenges from penetrating gamma rays and cosmic-ray induced backgrounds. But the astrophysical benefits of such efforts are underlined by the discoveries of nuclear gamma~rays from the brightest of the expected sources. In recent years, both thermonuclear and core-collapse supernova radioactivity gamma~rays have been measured in spectral detail, and complement conventional supernova observations with measurements of origins in deep supernova interiors, from the decay of $^{56}$Ni, $^{56}$Co, and $^{44}$Ti. The diffuse afterglow in gamma rays of radioactivity from massive-star nucleosynthesis is analysed on the large (galactic) scale, with findings important for recycling of matter between successive stellar generations: From $^{26}$Al gamma-ray line spectroscopy, interstellar cavities and superbubbles have been recognised in their importance for ejecta transport and recycling. Diffuse galactic emissions from radioactivity and positron-annihilation $\gamma$~rays should be connected to nucleosynthesis sources: Recently new light has been shed on this connection, among others though different measurements of radioactive $^{60}$Fe, and through spectroscopy of positron annihilation gamma~rays from a flaring microquasar and from different parts of our Galaxy.