Astronomy has experienced tremendous growth and development during the past fifty years as the entire electromagnetic spectrum from radio waves to gamma rays was opened to investigation. Remarkable progress has been achieved in our understanding of the origin and evolution of the universe; the structure and dynamics of galaxies; the birth, life, and death of stars and stellar systems; and the formation and ubiquity of planetary systems. The names of exotic objects such as supernovae, quasars, pulsars, and black holes have entered the public lexicon, and have captured the imagination of people, young and old, all over the world.
A new golden age of astronomy can be expected in the twenty-first century as the research tools of the more traditional disciplines are brought to bear on the great astronomical problems, and as novel windows are opened to the universe, using neutrinos and gravitational radiation to explore extreme configurations of matter and energy not accessible to terrestrial laboratories.
for his ground-breaking discoveries about millisecond pulsars, gamma-ray bursts, supernovae, and other variable or transient astronomical objects. His contributions to time-domain astronomy culminated in the conception, construction and leadership of the Palomar Transient Factory and its successor, the Zwicky Transient Facility, which have revolutionised our understanding of the time-variable optical sky.
Prizes in Astonomy have been awarded to one laureate only
Prizes in Astonomy have been shared by two laureates
Prizes in Astonomy have been shared by three laureates
for the discovery of fast radio bursts (FRBs).
for their lifetime contributions to space astrometry, and in particular for their role in the conception and design of the European Space Agency’s Hipparcos and Gaia missions.
for their contributions to our understanding of magnetars, a class of highly magnetized neutron stars that are linked to a wide range of spectacular, transient astrophysical phenomena. Through the development of new and precise observational techniques, they confirmed the existence of neutron stars with ultra-strong magnetic fields and characterized their physical properties. Their work has established magnetars as a new and important class of astrophysical objects.
for his foundational contributions to theoretical astrophysics, especially concerning the fundamental understanding of active galactic nuclei, the formation and collimation of relativistic jets, the energy extraction mechanism from black holes, and the acceleration of particles in shocks and their relevant radiation mechanisms.
for his leadership in the Voyager project, which has, over the past four decades, transformed our understanding of the four giant planets and the outer solar system, and has now begun to explore interstellar space.
