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From the Great Wall to the Great Collider: China and the Quest to Uncover the Inner Workings of the Universe
 
Edited by: Steve Nadis
Shing-Tung Yau Harvard University, Cambridge, MA
A publication of International Press of Boston
From the Great Wall to the Great Collider
Hardcover ISBN:  978-1-57146-310-4
Product Code:  INPR/98
List Price: $29.50
AMS Member Price: $23.60
Please note AMS points can not be used for this product
From the Great Wall to the Great Collider
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From the Great Wall to the Great Collider: China and the Quest to Uncover the Inner Workings of the Universe
Edited by: Steve Nadis
Shing-Tung Yau Harvard University, Cambridge, MA
A publication of International Press of Boston
Hardcover ISBN:  978-1-57146-310-4
Product Code:  INPR/98
List Price: $29.50
AMS Member Price: $23.60
Please note AMS points can not be used for this product
  • Book Details
     
     
    International Press
    Volume: 982015; 214 pp
    MSC: Primary 81; 82; Secondary 01

    The 2012 discovery of the Higgs boson was a sensational triumph—the culmination of a 48-year-long search that put the finishing touches on the so-called Standard Model of particle physics. While the celebrations were still underway, researchers in China were making plans to continue the centuries-old quest to identify the fundamental building blocks of nature. More specifically, they began laying the groundwork for a giant accelerator—up to 100 kilometers in circumference—that would transport physics into a previously inaccessible, high-energy realm where a host of new particles, and perhaps a sweeping new symmetry, might be found.

    The case for such an instrument is compelling: Even though the Standard Model can describe the behavior of particles with astounding accuracy, it is incomplete. The theory has little to say about the Big Bang, gravity, dark matter, dark energy, and other far-reaching phenomena.

    This book explains how an ambitious new machine—on the scale of China's proposed “Great Collider”—could provide us with a fuller understanding of the origins of our universe and its most basic constituents.

    A publication of International Press of Boston. Distributed worldwide by the American Mathematical Society.

  • Reviews
     
     
    • Building a large particle collider provides China a magnificent opportunity to take a lead role in exploring the most basic, unanswered questions in physics. This book, which makes the scientific and societal case for such a 'Great Collider,' is a must-read for anyone interested in the quest to fathom the deep nature of physical reality.

      David Gross, Kavli Institute for Theoretical Physics, Winner of the 2004 Nobel Prize in Physics
    • Pushing back the frontiers of nature, and learning about the mysteries that await us at higher energies, is one of the great challenges of our time. In this fascinating book, Steve Nadis and Shing-Tung Yau show how China could lead the way towards meeting this challenge.

      Edward Witten, Institute for Advanced Study, Winner of the 1990 Fields Medal and 2012 Fundamental Physics Prize
    • This is a great read --- accessible to anyone interested in what could be the next big step forward in particle physics after the Higgs discovery.

      Joseph Incandela, University of California at Santa Barbara, Winner of the 2012 Special Fundamental Physics Prize and leader of one of the teams that discovered the Higgs boson
  • Requests
     
     
    Review Copy – for publishers of book reviews
    Accessibility – to request an alternate format of an AMS title
Volume: 982015; 214 pp
MSC: Primary 81; 82; Secondary 01

The 2012 discovery of the Higgs boson was a sensational triumph—the culmination of a 48-year-long search that put the finishing touches on the so-called Standard Model of particle physics. While the celebrations were still underway, researchers in China were making plans to continue the centuries-old quest to identify the fundamental building blocks of nature. More specifically, they began laying the groundwork for a giant accelerator—up to 100 kilometers in circumference—that would transport physics into a previously inaccessible, high-energy realm where a host of new particles, and perhaps a sweeping new symmetry, might be found.

The case for such an instrument is compelling: Even though the Standard Model can describe the behavior of particles with astounding accuracy, it is incomplete. The theory has little to say about the Big Bang, gravity, dark matter, dark energy, and other far-reaching phenomena.

This book explains how an ambitious new machine—on the scale of China's proposed “Great Collider”—could provide us with a fuller understanding of the origins of our universe and its most basic constituents.

A publication of International Press of Boston. Distributed worldwide by the American Mathematical Society.

  • Building a large particle collider provides China a magnificent opportunity to take a lead role in exploring the most basic, unanswered questions in physics. This book, which makes the scientific and societal case for such a 'Great Collider,' is a must-read for anyone interested in the quest to fathom the deep nature of physical reality.

    David Gross, Kavli Institute for Theoretical Physics, Winner of the 2004 Nobel Prize in Physics
  • Pushing back the frontiers of nature, and learning about the mysteries that await us at higher energies, is one of the great challenges of our time. In this fascinating book, Steve Nadis and Shing-Tung Yau show how China could lead the way towards meeting this challenge.

    Edward Witten, Institute for Advanced Study, Winner of the 1990 Fields Medal and 2012 Fundamental Physics Prize
  • This is a great read --- accessible to anyone interested in what could be the next big step forward in particle physics after the Higgs discovery.

    Joseph Incandela, University of California at Santa Barbara, Winner of the 2012 Special Fundamental Physics Prize and leader of one of the teams that discovered the Higgs boson
Review Copy – for publishers of book reviews
Accessibility – to request an alternate format of an AMS title
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