By Kevin J. Anderson & Doug Beason. Activist Elizabeth Devane wished for an end to nuclear weapons. Surely, she thought, if they'd known what they were unleashing, the scientists of the Manhattan Project would never have created such a terrible instrument of destruction. But during a protest action, the unthinkable happened: a flash of light, a silent confusion, and Elizabeth awakes to find herself alone in a desolate desert arroyo ... and almost fifty years in the past. June 1944. Los Alamos, New Mexico. While the Allies battle in the Pacific and begin the Normandy invasion in Europe, Nazi Germany deviates from the timeline Elizabeth knows and uses its newfound nuclear arsenal against America. Somehow, someway, Elizabeth has been given the chance to put the genie back in the bottle ... yet could she—should she—attempt the greatest sabotage in history?
Kevin J. Anderson is the author of more than 130, 47 of which have appeared on national or international bestseller lists. He has over 21 million books in print in thirty languages. He has won or been nominated for numerous prestigious awards, including the Nebula Award, Bram Stoker Award, the SFX Reader's Choice Award, the American Physics Society's Forum Award, and New York Times Notable Book. By any measure, he is one of the most popular writers currently working in the science fiction genre. Dr. J. Douglas Beason is the author of fourteen books, eight with collaborator Kevin J. Anderson, including Ignition and Ill Wind, as well as two non-fiction books. A Nebula Award finalist, Doug's short fiction has appeared in numerous magazines and anthologies, and he has written for publications as diverse as Analog, Amazing Stories, Physical Review Letters and Physics of Fluids to Clashing Views on Controversial Issues in Science, Technology and Society. Doug and Kevin's novel The Trinity Paradox holds the distinction of being the first work of fiction ever nominated for the American Physical Society's Forum award for promoting the understanding of physics in society, and was the first novel ever reviewed in Physics Today