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The telescope in the ice : inventing a new astronomy at the South Pole

2017

Format:	Book
Author:	Bowen, Mark (Mark Stander), author.
Title:	The telescope in the ice : inventing a new astronomy at the South Pole / Mark Bowen.
Publisher, Date:	New York : St. Martins Press, 2017.
Description:	viii, 424 pages, 16 unnumbered pages of plates : illustrations ; 25 cm
Summary:	The IceCube Observatory has been called the "weirdest" of the seven wonders of modern astronomy by Scientific American. In The Telescope in the Ice, Mark Bowen tells the amazing story of the people who built the instrument and the science involved. Located near the U. S. Amundsen-Scott Research Station at the geographic South Pole, IceCube is unlike most telescopes in that it is not designed to detect light. It employs a cubic kilometer of diamond-clear ice, more than a mile beneath the surface, to detect an elementary particle known as the neutrino. In 2010, it detected the first extraterrestrial high-energy neutrinos and thus gave birth to a new field of astronomy. IceCube is also the largest particle physics detector ever built. Its scientific goals span not only astrophysics and cosmology but also pure particle physics. And since the neutrino is one of the strangest and least understood of the known elementary particles, this is fertile ground. Neutrino physics is perhaps the most active field in particle physics today, and IceCube is at the forefront. The Telescope in the Ice is, ultimately, a book about people and the thrill of the chase: the struggle to understand the neutrino and the pioneers and inventors of neutrino astronomy.
Subjects:	IceCube South Pole Neutrino Observatory. Neutrinos.
Notes:	Includes bibliographical references and index.
LCCN:	2017026874
ISBN:	9781137280084
System Availability:	1
# Local items:	1
Call Number:	522.686 Bo
# Local items in:	1
# System items in:	1
Current Holds:	0

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Genre
	NonFiction
	Astronomy & space
Topics
	Mathematics
	Astrophysics
	Astronomy
	Space and time
	Exploration
	Psychics

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Library Journal Review

Bowen's (Thin Ice) marvelous tale of the development of a new kind of telescope that detects neutrinos, or subatomic particles that rarely interact with matter they pass through, tells how physicist Francis Halzen designed a telescope that pointed toward space, removing any false positive findings. Also discussed is AMANDA (Antarctic Muon And Neutrino Detector Array), a series of light detectors buried within a mile of ice at the geographic South Pole at IceCube Neutrino Observatory. As neutrinos pass through the Earth, they sometimes interact with the ice and create a charged particle that emits blue light. By tracking this light, observers can locate the neutrino and verify its existence. This book begins with an introduction of how AMANDA operates and the main players involved. Bowen then jumps back 20 years to the initial meetings for the development of AMANDA, the engineering it took to build, and the trials and failures of the entire project. -VERDICT Concluding with a helpful list of acronyms, this useful reference work belongs in any physics and astronomy collection.-Jason L. Steagall, Gateway Technical Coll. Lib., Elkhorn, WI © Copyright 2017. Library Journals LLC, a wholly owned subsidiary of Media Source, Inc. No redistribution permitted.

Publishers Weekly Review

Bowen, a physicist and writer, immerses readers deep in Antarctic ice as he offers a mesmerizing look at a development in cutting-edge astrophysics with which few people are familiar: the South Pole's IceCube Neutrino Observatory, the "weirdest" telescope in the world. Instead of gathering data from starlight, IceCube searches for neutrinos-electrically neutral, nearly massless particles that have fascinated and frustrated physicists since they were first proposed by Wolfgang Pauli in the 1930s. As Bowen explains, astrophysicists are interested in neutrinos because they come from places that regular telescopes never see: stellar interiors, supernovae, and the supermassive black holes at the center of galaxies. Bowen describes how IceCube hunts neutrinos with sensitive detectors sunk more than a mile deep in Antarctic ice. The detectors look "down" through the Earth, using it as a shield to block cosmic rays and in turn make evidence of neutrinos easier to identify in the ice. Bowen relates the story of IceCube with wry humor and enthusiasm, bringing to life the researchers, their rivalries, and their challenges, as well as the science. Infusing groundbreaking inquiry with the spirit of those who carry it out, Bowen delivers a tale that's part educational, part inspirational, and all adventure. (Nov.) © Copyright PWxyz, LLC. All rights reserved.

Booklist Review

At the South Pole there is a large, expensive, and strange scientific instrument. Aptly named IceCube, it consists of holes drilled thousands of feet into the ice cap, down which have been lowered strings of optical sensors designed to detect what physicists call Cherenkov light, the result of a collision of a neutrino with an atomic nucleus, a rare event that can reveal a high-energy astrophysical source such as a supernova. Bowen (Censoring Science, 2008) recounts the IceCube's genesis, explaining that it must reside below Earth's surface to shield it from cosmic rays; details the construction of IceCube, which was completed in 2011; then brings readers to the U.S. base at the South Pole and its contemporary physicists and their quests. Sketching portraits of dozens of scientists and drillers involved in the project, Bowen integrates their specific investigative fields with individual and institutional assertions of scientific and financial control over the IceCube effort and the conflicts that ensued. Though challenging for casual readers, Bowen's insider's history of this remarkable device will reward those drawn to cutting-edge astrophysics.--Taylor, Gilbert Copyright 2017 Booklist

Summary

Located near the U. S. Amundsen-Scott Research Station at the geographic South Pole, IceCube is unlike most telescopes in that it is not designed to detect light. It employs a cubic kilometre of diamond-clear ice, more than a mile beneath the surface, to detect an elementary particle known as the neutrino. In 2010, it detected the first extraterrestrial high-energy neutrinos and thus gave birth to a new field of astronomy.IceCube is also the largest particle physics detector ever built. Its scientific goals span not only astrophysics and cosmology but also pure particle physics. And since the neutrino is one of the strangest and least understood of the known elementary particles, this is fertile ground. Neutrino physics is perhaps the most active field in particle physics today, and IceCube is at the forefront.The Telescope in the Ice is, ultimately, a book about people and the thrill of the chase: the struggle to understand the neutrino and the pioneers and inventors of neutrino astronomy.

Table of Contents

	Introduction: Making Mistakes	p. 1
Part 1	The Birth and Youth of the Neutrino
1	This Crazy Child	p. 17
2	Infancy and Youth	p. 36
3	From Poltergeist to Particle	p. 50
Part II	The Dream of Neutrino Astronomy
4	Wisconsin-Style Physics	p. 67
5	Peaceful Exploration by Interested Scientists Throughout the World	p. 87
6	Science at Its Best	p. 100
Part III	Touching the Mystery
7	Solid-State DUMAND	p. 121
8	Enter Bruce	p. 140
9	The Crossover	p. 163
10	A Supernova of Science	p. 175
11	Doubling Down	p. 192
12	Glory Days	p. 204
13	Night on the Ice	p. 217
14	The First Nus	p. 229
15	The Peacock and Eva Events	p. 245
16	Y2K at Pole	p. 265
Part IV	The Real Thing
17	Sometimes You Get What You Ask For	p. 279
18	No New Starts	p. 288
19	The Coming of Yeck	p. 305
20	Failure and Success	p. 315
21	As Quickly as It All Began ...	p. 329
22	Crossing the Threshold	p. 347
	Epilogue: The Dawn of Multi-Messenger Astronomy	p. 368
	Acknowledgments	p. 376
	Acronyms	p. 379
	Timeline	p. 381
	Notes	p. 387
	References and Bibliography	p. 401
	Index	p. 416
	Illustrations
	Beta decay	p. 44
	Muon decay	p. 45
	The Markov or "plum pudding" design	p. 71
	The Greisen or "shell" design	p. 74
	Schematic of IceCube	p. 342

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