Relating the story of the transatlantic struggle for subnuclear domination, The Quark Machines: How Europe Fought the Particle Physics War, Second Edition covers the history, the politics, and the personalities of particle physics. Extensively illustrated with many original photographs of the key players in the field, the book sheds new light on the sovereignty issues of modern scientific research as well as the insights it has produced. Throughout the twentieth century, Europe and the United States have vied for supremacy of subnuclear physics. Initially, the advent of World War II and an enforced exodus of scientific talent from Europe boosted American efforts. Then, buoyed along by the need to develop the bomb and the ensuing distrust of the Cold War, the United States vaulted into a commanding role-a position it retained for almost fifty years. Throughout this period, each new particle accelerator was a major campaign, each new particle a battle won. With the end of the Cold War, U.S. preeminence evaporated and Europe retook the advantage. Now CERN, for four decades the spearhead of the European fightback, stands as the leading global particle physics center. Today, particle physics is at a turning point in its history-how well Europe retains its advantage remains to be seen.

In 1979, Abdus Salam became the first Muslim, and the first citizen of Pakistan, to win a Nobel Prize. Branded a heretic at home, he pioneered the International Centre for Theoretical Physics in Trieste, a vital focus of Third World science which remains as his monument. A staunch Muslim, he was ashamed of the decline of science in the heritage of Islam, and struggled doggedly to restore it to its former glory. Salam's truly remarkable multi-faceted character is well mirrored here. The book is beautifully written, and handles many delicate political and personal issues with sensitivity and understanding. Very authoritative and insightful, giving a rounded picture of a very complex man. -- Tom Kibble, Imperial College London

Relating the story of the transatlantic struggle for subnuclear domination, The Quark Machines: How Europe Fought the Particle Physics War, Second Edition covers the history, the politics, and the personalities of particle physics. Extensively illustrated with many original photographs of the key players in the field, the book sheds new light on the sovereignty issues of modern scientific research as well as the insights it has produced. Throughout the twentieth century, Europe and the United States have vied for supremacy of subnuclear physics. Initially, the advent of World War II and an enforced exodus of scientific talent from Europe boosted American efforts. Then, buoyed along by the need to develop the bomb and the ensuing distrust of the Cold War, the United States vaulted into a commanding role-a position it retained for almost fifty years. Throughout this period, each new particle accelerator was a major campaign, each new particle a battle won. With the end of the Cold War, U.S. preeminence evaporated and Europe retook the advantage. Now CERN, for four decades the spearhead of the European fightback, stands as the leading global particle physics center. Today, particle physics is at a turning point in its history-how well Europe retains its advantage remains to be seen.

This book constitutes the refereed proceedings of the Fourth International Symposium on Search-Based Software Engineering, SSBSE 2012, held in Riva del Garda, Italy in collocation with the 28th IEEE International Conference on Software Maintenance. The 15 revised full papers, 3 revised short papers, and 2 papers of the graduate track presented together with 2 keynote talks and 1 tutorial paper were carefully reviewed and selected from 38 initial submissions. Search-based Software Engineering (SBSE) studies the application of meta-heuristic optimization techniques to various software engineering problems, ranging from requirements engineering to software testing and maintenance. The papers present current research in all areas of Search Based Software Engineering, including theoretical work, research on SBSE applications, empirical studies, and reports on industrial experience.

The United States has been a space power since its founding, Gordon Fraser writes. The white stars on its flag reveal the dream of continental elites that the former colonies might constitute a "new constellation" in the firmament of nations. The streets and avenues of its capital city were mapped in reference to celestial observations. And as the nineteenth century unfolded, all efforts to colonize the North American continent depended upon the science of surveying, or mapping with reference to celestial movement. Through its built environment, cultural mythology, and exercise of military power, the United States has always treated the cosmos as a territory available for exploitation. In Star Territory Fraser explores how from its beginning, agents of the state, including President John Adams, Admiral Charles Henry Davis, and astronomer Maria Mitchell, participated in large-scale efforts to map the nation onto cosmic space. Through almanacs, maps, and star charts, practical information and exceptionalist mythologies were transmitted to the nation's soldiers, scientists, and citizens. This is, however, only one part of the story Fraser tells. From the country's first Black surveyors, seamen, and publishers to the elected officials of the Cherokee Nation and Hawaiian resistance leaders, other actors established alternative cosmic communities. These Black and indigenous astronomers, prophets, and printers offered ways of understanding the heavens that broke from the work of the U.S. officials for whom the universe was merely measurable and exploitable. Today, NASA administrators advocate public-private partnerships for the development of space commerce while the military seeks to control strategic regions above the atmosphere. If observers imagine that these developments are the direct offshoots of a mid-twentieth-century space race, Fraser brilliantly demonstrates otherwise. The United States' efforts to exploit the cosmos, as well as the resistance to these efforts, have a history that starts nearly two centuries before the Gemini and Apollo missions of the 1960s.

It was no accident that the Holocaust and the Atomic Bomb happened at the same time. When the Nazis came into power in 1933, their initial objective was not to get rid of Jews. Rather, their aim was to refine German culture: Jewish professors and teachers at fine universities were sacked. Atomic science had attracted a lot of Jewish talent, and as Albert Einstein and other quantum exiles scattered, they realized that they held the key to a weapon of unimaginable power. Convinced that their gentile counterparts in Germany had come to the same conclusion, and having witnessed what the Nazis were prepared to do, the exiles were afraid. They had to get to the Atomic Bomb first. The Nazis meanwhile had acquired a more pressing objective: their persecution of the Jews had evolved into extermination. Two dreadful projects - the Bomb and the Holocaust - became locked a grisly race.

This book presents a biography of Abdus Salam, the first Muslim to win a Nobel Prize for Science (Physics 1979), who was nevertheless excommunicated and branded as a heretic in his own country. His achievements are often overlooked, even besmirched. Realizing that the whole world had to be his stage, he pioneered the International Centre for Theoretical Physics in Trieste, a vital focus of Third World science which remains as his monument. A staunch Muslim, he was ashamed of the decline of science in the heritage of Islam, and struggled doggedly to restore it to its former glory. Undermined by his excommunication, these valiant efforts were doomed.

This book introduces the world of antimatter without using technical language or equations. The author shows how the quest for symmetry in physics slowly revealed the properties of antimatter. When large particle accelerators came on line, the antimatter debris of collisions provided new clues on its properties. This is a fast-paced and lucid account of how science fiction became fact.

This book introduces the world of antimatter without using technical language or equations. The author shows how the quest for symmetry in physics slowly revealed the properties of antimatter. When large particle accelerators came on line, the antimatter debris of collisions provided new clues on its properties. This is a fast-paced and lucid account of how science fiction became fact.

It was no accident that the Holocaust and the Atomic Bomb happened at the same time. When the Nazis came into power in 1933, their initial objective was not to get rid of Jews. Rather, their aim was to refine German culture: Jewish professors and teachers at fine universities were sacked. Atomic science had attracted a lot of Jewish talent, and as Albert Einstein and other quantum exiles scattered, they realized that they held the key to a weapon of unimaginable power. Convinced that their gentile counterparts in Germany had come to the same conclusion, and having witnessed what the Nazis were prepared to do, the exiles were afraid. They had to get to the Atomic Bomb first. The Nazis meanwhile had acquired a more pressing objective: their persecution of the Jews had evolved into extermination. Two dreadful projects - the Bomb and the Holocaust - became locked in a grisly race.