Book contents
- Frontmatter
- Dedication
- Epigraph
- Contents
- Preface
- 1 Introduction
- 2 Classical Magnetic Needles
- 3 The Stern–Gerlach Experiment
- 4 The Conundrum of Projections; Repeated Measurements
- 5 Probability
- 6 The Einstein–Podolsky–Rosen Paradox
- 7 Variations on a Theme by Einstein
- 8 Optical Interference
- 9 Quantal Interference
- 10 Amplitudes
- 11 Working with Amplitudes
- 12 Two-Slit Inventions
- 13 Quantum Cryptography
- 14 Quantum Mechanics of a Bouncing Ball
- 15 The Wavefunction
- Appendix A A Brief History of Quantum Mechanics
- Appendix B Putting Weirdness to Work
- Appendix C Sources
- Appendix D General Questions
- Appendix E Bibliography
- Appendix F Skeleton Answers for Selected Problems
- Index
- References
13 - Quantum Cryptography
Published online by Cambridge University Press: 05 August 2014
- Frontmatter
- Dedication
- Epigraph
- Contents
- Preface
- 1 Introduction
- 2 Classical Magnetic Needles
- 3 The Stern–Gerlach Experiment
- 4 The Conundrum of Projections; Repeated Measurements
- 5 Probability
- 6 The Einstein–Podolsky–Rosen Paradox
- 7 Variations on a Theme by Einstein
- 8 Optical Interference
- 9 Quantal Interference
- 10 Amplitudes
- 11 Working with Amplitudes
- 12 Two-Slit Inventions
- 13 Quantum Cryptography
- 14 Quantum Mechanics of a Bouncing Ball
- 15 The Wavefunction
- Appendix A A Brief History of Quantum Mechanics
- Appendix B Putting Weirdness to Work
- Appendix C Sources
- Appendix D General Questions
- Appendix E Bibliography
- Appendix F Skeleton Answers for Selected Problems
- Index
- References
Summary
Quantum mechanics is valuable because it opens a discussion about the nature of reality, because it demonstrates the power of reason in revealing the truth even when common sense is an obstacle, and simply because it is good to know how our universe ticks (“knowledge is better than ignorance”). But it is also valuable because a host of practical devices, from lasers to transistors to superconductors, all work because of quantum mechanics.
Most of these applications are beyond the scope of this book. I could tell you in vague terms how a laser works, but I could never convince you that my description was correct — you would have to accept it on my authority, and acceptance on the basis of authority is the very antithesis of scientific thought. However, there is one very recent, very exciting application of quantum mechanics that can be treated in full within the “rigorous but not technical” style of this book, namely the use of quantum mechanics to send coded messages. (You may skip this chapter without interrupting the flow of the book's argument.)
Can you keep a secret?
Sending coded messages is a part of life. Governments and businesses need to transmit secrets that would be deadly in the wrong hands (military plans, formulas for explosives, etc.). But even you have information that you don't want everyone in the world to know: your bank balance, your voting record, your vacation plans. I'm not suggesting that you should be embarrassed about your bank balance, but it's your private information and no eavesdropper has any right to it.
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- Information
- The Strange World of Quantum Mechanics , pp. 98 - 102Publisher: Cambridge University PressPrint publication year: 2000