Synopses & Reviews
Seduced by simplicity, physicists find themselves endlessly fascinated by hydrogen, the simplest of atoms. Hydrogen has shocked, it has surprised, it has embarrassed, it has humbledand again and again it has guided physicists to the edge of new vistas where the promise of basic understanding and momentous insights beckoned. The allure of hydrogen, crucial to life and critical to scientific discovery, is at the center of this book, which tells a story that begins with the big bang and continues to unfold today.
In this biography of hydrogen, John Rigden shows how this singular atom, the most abundant in the universe, has helped unify our understanding of the material world from the smallest scale, the elementary particles, to the largest, the universe itself. It is a tale of startling discoveries and dazzling practical benefits spanning more than one hundred yearsfrom the first attempt to identify the basic building block of atoms in the mid-nineteenth century to the discovery of the Bose-Einstein condensate only a few years ago. With Rigden as an expert and engaging guide, we see how hydrogen captured the imagination of many great scientistssuch as Heisenberg, Pauli, Schrodinger, Dirac, and Rabiand how their theories and experiments with this simple atom led to such complex technical innovations as magnetic resonance imaging, the maser clock, and global positioning systems. Along the way, we witness the transformation of science from an endeavor of inspired individuals to a monumental enterprise often requiring the cooperation of hundreds of scientists around the world.
Still, any biography of hydrogen has to end with a question: What new surprises await us?
Review
Justly acclaimed for his lucid biography of physicist I. I. Rabi, Rigden here shifts his focus from person to problem, chronicling how one enduring conundrumthat of explaining the element hydrogenhas challenged two centuries of brilliant scientists...Readers will marvel that in its very first square, the periodic table holds so much science, so much history, so much humanity. Bryce Christensen, Booklist
Review
There can be no understanding of either the microscopic world or the cosmos at large without an understanding of hydrogen. Rigden's book is, on one level, a history of this most basic element, from its discovery in the 18th century to today's cutting-edge experiments...But Rigden is also telling us the story of modern physics...If you love physics, you'll enjoy this book. It is thoughtful, clever and rich in detail. Dan Falk, National Post
Review
There is almost magic eloquence in the practice and insights of science at its highest orderswhich when transformed into the written word can produce splendid literature. A recent effort to do just that is Hydrogen...For many reasons, this book grabbed me from the start and held my attention to its finish...For its literary quality, its memorable parade of scientific superheroes and the richness of its material, this is a book I heartily recommend. Michael Pakenham, Baltimore Sun
Review
Rigden's easy narrative style provides one of the most accessible descriptions of the importance of laboratory experimentation in developing our current understanding of fundamental physics that I know of. Also, he demonstrates how theorists have at times led the way, sometimes with jumps of intuition, sometimes with reliance on fundamental notions like symmetry and sometimes with sheer stubborn persistence. Finally, readers will particularly benefit from seeing extremely important practical technologies that the original experimenters may never have dreamed of. For a picture of how physics really progresseswith gritty details filled in, along with ingenious experiments and glimpses of physicists who push the forefronts of knowledgeRigden's brief ode to hydrogen is a refreshing alternative to some of the speculative musings dominating the physics sections of bookstores. Lawrence M. Krauss, New York Times Book Review
Review
Rigden is deeply enamored of physics, physicists and the historical anecdotes that bind them together. These passions are reflected in Hydrogen's formatshort essays about different aspects of the hydrogen story, focusing on its physicist-heroes...Great stories, beautifully told...Rigden has done physicists a service with his touching love letters to their favorite atomic quarry. Graham Farmelo, New Scientist
Review
John S. Rigden...has taken on the challenge and produced an accessible, congenial book for the general reader...His book deserves praise for introducing a wider audience to the rich story of hydrogen. Peter Pesic, American Scientist
Review
A prominent physicist once said, "to understand hydrogen is to understand all of physics." That is perhaps a bit of an overstatement; but it is no exaggeration to say that John Rigden's eminently readable book is a unique guide to the overwhelming role in science and technology of that simplest of all elementsfrom the origin of the universe itself to the most recently created lab sensation, the Bose-Einstein condensate. A book to be treasured by laypersons and experts alike. Gerald Holton, author of Einstein, History, and Other Passions
Review
Using the leitmotif of the hydrogen atom, John Rigden gives us an elegant review of the development of modern physics. This simplest of all atoms provided the challenge to Bohr, Heisenberg, Dirac, Rabi, Ramsey, and the other founders of 20th century physics. As the leading character, it carries the plot gracefully even to the subtlest of corrections provided by the quantum field theory of the 1940's and the most recent breakthrough by Dan Kleppner and his students in the late 1990's which earned some of those students the 2001 Nobel Prize for the observation of Bose-Einstein condensates. The writing is lucid and accessible, and should be easy going for the lay reader who enjoys his science with a minimum of mathematics. It is quite astonishing that the story loses almost none of its drama and coverage when filtered through the efforts to really, really understand hydrogen. Leon Lederman, Nobel Laureate of Physics, 1988
Review
John Rigden has chosen a great subject. Hydrogen truly has been the essential element in the evolution of our universe, in the development of the early quantum theory of atomic structure, quantum mechanics and quantum electrodynamics, nuclear magnetic resonance, and the creation of the atomic clock, and in many other discoveries and theoretical advances. In telling the story of this simplest of all atoms, Rigden gives us, in effect, a history of physics in the twentieth century. This fascinating book will captivate scientists and general readers alike. Norman Ramsey, Nobel Laureate of Physics, 1989
Synopsis
Selected as One of Discover Magazine's 20 Best Science Books of 2002
About the Author
John Rigden is Adjunct Professor of Physics, Washington University in St. Louis.
Table of Contents
Prologue
1. In the Beginning: Hydrogen and the Big Bang
2. Hydrogen and the Unity of Matter: The Prout Hypothesis
William Prout, 1815
3. Hydrogen and the Spectra of the Chemical Elements: A Swiss High School Teacher Finds a Pattern
Johann Jakob Balmer, 1885
4. The Bohr Model of Hydrogen: A Paradigm for the Structure of Atoms
Niels Bohr, 1913
5. Relativity Meets the Quantum in the Hydrogen Atom
Arnold Sommerfeld, 1916
6. The Fine-Structure Constant: A Strange Number with Universal Significance
Arnold Sommerfeld, 1916
7. The Birth of Quantum Mechanics: The Hydrogen Atom Answers the "Crucial Question"
Werner Heisenberg and Wolfgang Pauli, 1925-26 * Paul Dirac, 1925-26
8. The Hydrogen Atom: Midwife to the Birth of Wave Mechanics
Erwin Schrödinger, 1926
9. The Hydrogen Atom and Dirac's Theory of the Electron
Paul Dirac, 1928
10. Hydrogen Guides Nuclear Physicists: The Discovery of Deuterium
Harold Urey, 1932
11. Hubris Meets Hydrogen: The Magnetic Moment of the Proton
Otto Stern, 1933
12. The Magnetic Resonance Method: The Origin of Magnetic Resonance Imaging
I. I. Rabi, 1938
13. New Nuclear Forces Required: The Discovery of the Quadrupole Moment of the Deuteron
Norman F. Ramsey and I. I. Rabi, 1939
14. Magnetic Resonance in Bulk Matter (NMR)
Edward M. Purcell and Felix Bloch, 1946
15. Hydrogen's Challenge to Dirac Theory: Quantum Electrodynamics as the Prototype Physical Theory
Willis Lamb, 1947
16. The Hydrogen Atom Portends an Anomaly with the Electron
I. I. Rabi, John E. Nafe, and Edward B. Nelson, 1946
17. Hydrogen Maps the Galaxy
Edward M. Purcell and Harold Ewen, 1951
18. The Hydrogen Maser: A High-Precision Clock
Norman F. Ramsey and Daniel Kleppner, 1960
19. The Rydberg Constant: A Fundamental Constant
Johannes Robert Rydberg, 1890 * Theodor Hänsch, 1992
20. The Abundance of Deuterium: A Check on Big Bang Cosmology
David N. Schramm, 1945-1997
21. Antihydrogen: The First Antiatom
22. The Bose-Einstein Condensate for Hydrogen
Satyendranath Bose, 1924 * Albert Einstein, 1925 * Eric A. Cornell and Carl E. Wieman, 1995 * Daniel Kleppner and Tom Greytak, 1998
23. Exotic Hydrogen-like Atoms: From Theory to Technology
Epilogue
Notes
Acknowledgments
Credits
Index