Yzabel / March 20, 2020
How to Find a Higgs Boson—and Other Big Mysteries in the World of the Very Small by Ivo van Vulpen
My rating: ★★★★☆
Blurb:
The history of particle physics, the hunt for the most elusive particle, and the fundamental questions the search has inspired
How did physicists combine talent and technology to discover the Higgs boson, the last piece in our inventory of the subatomic world? How did the Higgs change our understanding of the universe? And now, nearly a decade after its detection, what comes next? Answering these questions, Ivo van Vulpen—a CERN particle physicist and member of the team behind the detection—invites us on a journey to the frontiers of our knowledge.
Enjoy van Vulpen’s accessible explanation of the history of particle physics and of concepts like quantum mechanics and relativity—and ponder his inquiries regarding the search for new particles (to explain dark matter), a new force (to combine the existing fundamental forces), and new phenomena (undiscovered dimensions of space). This is a lively account of work at the world’s highest-energy particle accelerator, with inspiring personal reflections on humanity’s discoveries deeper and deeper into the world of the very small.
Review:
[I got a copy through NetGalley, in exchange for an honest review.]
A good, solid read about particle physics in general, and the confirmation of the Higgs boson at CERN. The beginning may seem deceptively simple for a layperson who already knows the basics, but it’s obviously here to pave the way for what follows, which goes a little more into the nitty-gritty technical details. Maybe someone who really doesn’t know anything about physics might find it difficult to follow, although I’m not convinced; the way it’s explained should take care of that. It was really interesting, and a testament, too, to what a venture such as CERN can accomplish.
Also, yet another proof that we really, really need to stop funding research and experiments according to “how much money we can make off it”, because if this keeps happening, we’ll just stop making new discoveries altogether. Another interesting side of this book was how it illustrated in which (often unexpectedly) physics CAN actually lead to very useful applications, even though the research may have appeared as random at first–PET scanners, for instance: who would’ve known?
The author’s writing is easy to follow, both when it comes to the book’s structure and to its translation. I’ll have no qualms recommending it to non-physicists, and to physicists as well, come to think of it.