
Seeing A Black Hole At The Heart Of A Distant Galaxy Is Like Standing In Paris And Reading A Newspaper In New York. How Is This Possible? And Why Can Quantum Computers Compute Impossible Things In Hours That Would Take Classical Computers The Time Since The Big Bang? The Answer To These Questions Is Interference. Optical Interferometry Is Mankind's Most Sensitive Form Of Measurement. In Just The Past Several Years, Interferometry Has Been Used To Make The First Image Of A Black Hole, To Demonstrate The First Programmable Quantum Computer, And To Detect The First Gravitational Waves. This Recent List Of Firsts Points To The Fertile And Active Field Of Optical Interferometry For Which Interference Provides A Convenient And Up-to-date Guide For A Wide Audience Interested In The Science Of Light. This Book Tells The Stories About The Personal Adventures Experienced By The Scientists And Engineers Who Uncovered The Vast Wealth Of Optical Interference Phenomena. Beginning With Young's Double Slit Experiment And The Collaboration Of Arago And Fresnel To Prove The Wave Nature Of Light, To The Detection Of Gravitational Waves Using Kilometer-long Laser Beams, The History Of Interferometry Has Astonishing Human Drama That Parallels The Scientific Drama Of The Discoveries-- Provided By Publisher.
This book investigates how the phenomenon of interference serves as the foundational mechanism behind the most sensitive measurements in modern science. Author D. D. Nolte, a physicist, utilizes a historical and technical framework to explain how wave interference enables breakthroughs ranging from quantum computing to the detection of gravitational waves. By tracing the evolution of optical interferometry, the text argues that the ability to manipulate light waves has fundamentally altered our capacity to observe the universe and process information. The narrative connects the theoretical underpinnings of light to the practical engineering feats that define contemporary physics.
What You Will Find
Scope Limits
Experts recognize this work as an accessible bridge between complex physical phenomena and the human history of scientific discovery. Readers frequently note that the prose balances technical rigor with narrative storytelling, making it suitable for both students and science enthusiasts.
Page Count:
0
Publication Date:
2023-01-01
Publisher:
Oxford, United Kingdom ; Oxford University Press,
ISBN-10:
0191965960
ISBN-13:
9780191965968
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