Catching Element Formation In The Act

Chris L. Fryer; Frank Timmes; Aimee L. Hungerford; Aaron Couture; Fred; Adams; Wako Aoki; Almudena Arcones; David Arnett; Katie Auchettl; Melina; Avila; Carles Badenes; Eddie Baron; Andreas Bauswein; John Beacom; Jeff; Blackmon; Stephane Blondin; Peter Bloser; Steve Boggs; Alan Boss; Terri; Brandt; Eduardo Bravo; Ed Brown; Peter Brown; Steve Bruenn. Carl; Budtz-Jorgensen; Eric Burns; Alan Calder; Regina Caputo; Art Champagne; Roger; Chevalier; Alessandro Chieffi; Kelly Chipps; David Cinabro; Ondrea Clarkson,; Don Clayton; Alain Coc; Devin Connolly; Charlie Conroy; Benoit Cote; Sean; Couch; Nicolas Dauphas; Richard James deBoer; Catherine Deibel; Pavel; Denisenkov; Steve Desch; Luc Dessart; Roland Diehl; Carolyn Doherty; Inma; Dominguez; Subo Dong; Vikram Dwarkadas; Doreen Fan; Brian Fields; Carl; Fields; Alex Filippenko; Robert Fisher; Francois Foucart; Claes Fransson,; Carla Frohlich; George Fuller; Brad Gibson; Viktoriya Giryanskaya; Joachim; Gorres; Stephane Goriely; Sergei Grebenev; Brian Grefenstette; Evan Grohs,; James Guillochon; Alice Harpole; Chelsea Harris; J. Austin Harris; Fiona; Harrison; Dieter Hartmann; Masa-aki Hashimoto; Alexander Heger; Margarita; Hernanz; Falk Herwig; Raphael Hirschi; Raphael William Hix; Peter Hoflich,; Robert Hoffman; Cole Holcomb; Eric Hsiao; Christian Iliadis; Agnieszka; Janiuk; Thomas Janka; Anders Jerkstrand; Lucas Johns; Samuel Jones; Jordi; Jose; Toshitaka Kajino; Amanda Karakas; Platon Karpov; Dan Kasen; Carolyn; Kierans; Marc Kippen; Oleg Korobkin; Chiaki Kobayashi; Cecilia Kozma; Saha; Krot; Pawan Kumar; Irfan Kuvvetli; Alison Laird; (John) Martin Laming,; Josefin Larsson; John Lattanzio; James Lattimer; Mark Leising; Annika; Lennarz; Eric Lentz; Marco Limongi; Jonas Lippuner; Eli Livne; Nicole; Lloyd-Ronning; Richard Longland; Laura A. Lopez; Maria Lugaro; Alexander; Lutovinov; Kristin Madsen; Chris Malone; Francesca Matteucci; Julie McEnery,; Zach Meisel; Bronson Messer; Brian Metzger; Bradley Meyer; Georges Meynet,; Anthony Mezzacappa; Jonah Miller; Richard Miller; Peter Milne; Wendell Misch,; Lee Mitchell; Philipp Mosta; Yuko Motizuki; Bernhard Muller; Matthew; Mumpower; Jeremiah Murphy; Shigehiro Nagataki; Ehud Nakar; Ken'ichi Nomoto,; Peter Nugent; Filomena Nunes; Brian O'Shea; Uwe Oberlack; Steven Pain; Lucas; Parker; Albino Perego; Marco Pignatari; Gabriel Martinez Pinedo; Tomasz; Plewa; Dovi Poznanski; William Priedhorsky; Boris Pritychenko; David Radice,; Enrico Ramirez-Ruiz; Thomas Rauscher; Sanjay Reddy; Ernst Rehm; Rene; Reifarth; Debra Richman; Paul Ricker; Nabin Rijal; Luke Roberts; Friedrich; Ropke; Stephan Rosswog; Ashley J. Ruiter; Chris Ruiz; Daniel Wolf Savin,; Hendrik Schatz; Dieter Schneider; Josiah Schwab; Ivo Seitenzahl; Ken Shen,; Thomas Siegert; Stuart Sim; David Smith; Karl Smith; Michael Smith; Jesper; Sollerman; Trevor Sprouse; Artemis Spyrou; Sumner Starrfield; Andrew Steiner,; Andrew W. Strong; Tuguldur Sukhbold; Nick Suntzeff; Rebecca Surman; Toru; Tanimori; Lih-Sin The; Friedrich-Karl Thielemann; Alexey Tolstov; Nozomu; Tominaga; John Tomsick; Dean Townsley; Pelagia Tsintari; Sergey Tsygankov,; David Vartanyan; Tonia Venters; Tom Vestrand; Jacco Vink; Roni Waldman,; Lifang Wang; Xilu Wang; MacKenzie Warren; Christopher West; J. Craig Wheeler,; Michael Wiescher; Christoph Winkler; Lisa Winter; Bill Wolf; Richard Woolf,; Stan Woosley; Jin Wu; Chris Wrede; Shoichi Yamada; Patrick Young; Remco; Zegers; Michael Zingale; Simon Portegies Zwart

arXiv:1902.02915·astro-ph.HE·February 11, 2019·5 cites

Catching Element Formation In The Act

Chris L. Fryer, Frank Timmes, Aimee L. Hungerford, Aaron Couture, Fred, Adams, Wako Aoki, Almudena Arcones, David Arnett, Katie Auchettl, Melina, Avila, Carles Badenes, Eddie Baron, Andreas Bauswein, John Beacom, Jeff, Blackmon, Stephane Blondin, Peter Bloser, Steve Boggs

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Open Access

TL;DR

Next-generation gamma-ray instruments will significantly enhance our ability to study energetic astrophysical phenomena, enabling detailed time-domain population studies and new discoveries in gamma-ray astronomy.

Contribution

The paper discusses how advancements in gamma-ray instrument technology will transform astrophysical research by improving sensitivity, sky coverage, and cadence.

Findings

01

Enhanced sensitivity allows detection of faint gamma-ray sources.

02

Broader sky coverage enables comprehensive mapping of the Milky Way.

03

Faster cadence facilitates time-domain studies of transient events.

Abstract

Gamma-ray astronomy explores the most energetic photons in nature to address some of the most pressing puzzles in contemporary astrophysics. It encompasses a wide range of objects and phenomena: stars, supernovae, novae, neutron stars, stellar-mass black holes, nucleosynthesis, the interstellar medium, cosmic rays and relativistic-particle acceleration, and the evolution of galaxies. MeV gamma-rays provide a unique probe of nuclear processes in astronomy, directly measuring radioactive decay, nuclear de-excitation, and positron annihilation. The substantial information carried by gamma-ray photons allows us to see deeper into these objects, the bulk of the power is often emitted at gamma-ray energies, and radioactivity provides a natural physical clock that adds unique information. New science will be driven by time-domain population studies at gamma-ray energies. This science is…

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Taxonomy

TopicsAstronomical and nuclear sciences