A primer on the currency alternative that's changing the world

Bitcoin can be a bit puzzling to the uninitiated. Ledger? Blockchain? Mining? These cryptocurrency concepts aren't going away, and there are tremendous opportunities for those with some know-how to get onboard with the crypto culture.Bitcoin For Dummies helps you get un-puzzled, learn the Bitcoin basics, and discover the possibilities in the new world of digital currencies.

With this 100% new edition, you can step into the fascinating culture of cryptocurrency and learn how to use Bitcoin as a currency or an investment vehicle. A little bit of knowledge will go a long way, and youll be ready to sail smoothly ahead as the crypto tsunami advances.

Bitcoin For Dummies is great for beginning Bitcoin users and investors who need to know the basics about getting started with Bitcoin and cryptocurrency.

Peter Kent is author of numerous technology titles as well as his own cryptocurrency video course,Get Crypto Clear: Bitcoin and Cryptocurrency Made Simple.

Tyler Bain is an engineer specializing in the electrical grid and keeping the lights on for all those Bitcoin miners, traders, and node runners. Peter and Tyler are also co-authors ofCryptocurrency Mining For Dummies.

Preface xxxix

Acknowledgments xliii

1 Basic Optical Calculations 1

1.1 Introduction 1

1.2 Wave Propagation 2

1.3 CalculatingWave Propagation in Real Life 7

1.4 Detection 26

1.5 Coherent Detection 26

1.6 Interferometers 29

1.7 Photon Budgets and Operating Specifications 30

1.8 Signal Processing Strategy 36

2 Sources And Illuminators41

2.1 Introduction 41

2.2 The Spectrum 41

2.3 Radiometry 43

2.4 Continuum Sources 43

2.5 Interlude: Coherence 46

2.6 More Sources 50

2.7 Incoherent Line Sources 55

2.9 Lasers 57

2.10 Gas Lasers 59

2.11 Solid-State Lasers 59

2 Diode Lasers 61

2.13 Laser Noise 69

3 Optical Detection81

3.1 Introduction 81

3.2 Signal-to-Noise Ratios 82

3.3 Detector Figures of Merit 83

3.5 Photomultipliers 100

3.6 Thermal Detectors 114

3.7 Image Intensifiers 115

3.9 How Do I Know Which Noise Source Dominates? 124

3.10 Hacks 129

4 Lenses, Prisms, and Mirrors137

4.1 Introduction 137

4.2 Optical Materials 137

4.4 Surface Quality 141

4.5 Windows 142

4.6 Pathologies of Optical Elements 143

4.7 Fringes 143

4.8 Mirrors 147

4.10 Prism Pathologies 153

4.11 Lenses 154

2 Complex Lenses 158

3 Other Lenslike Devices 162

5 Coatings, Filters, and Surface Finishes165

5.1 Introduction 165

5.2 Metal Mirrors 165

5.4 Simple Coating Theory 171

5.5 Moth-Eye Finishes 179

5.6 Absorptive Filters 180

5.7 Beam Dumps and Baffles 182

5.8 White Surfaces and Diffusers 186

6 Polarization191

6.1 Introduction 191

6.2 Polarization of Light 191

6.3 Interaction of Polarization with Materials 193

6.4 Absorption Polarizers 197

6.5 Brewster Polarizers 197

6.6 Birefringent Polarizers 198

6.7 Double-Refraction Polarizers 199

6.8 TIR Polarizers 202

6.9 Retarders 203

6.10 Polarization Control 206

7 Exotic Optical Components211

 Introduction 211

 Gratings 211

 Grating Pathologies 214

 Types of Gratings 215

 Resolution of Grating Instruments 218

 Fine Points of Gratings 219

 Holographic Optical Elements 222

 Photonic Crystals and Metamaterials 223

 Retroreflective Materials 224

7.10 Scanners 225

7.11 Modulators 231

8 FiberOptics239

8.1 Introduction 239

8.2 Fiber Characteristics 239

8.3 Fiber Theory 242

8.4 Fiber Types 247

8.5 Other Fiber Properties 251

8.6 Working with Fibers 255

8.7 Fiber Devices 260

8.8 Diode Lasers and Fiber Optics 264

8.9 Fiber Optic Sensors 264

8.10 Intensity Sensors 265

8.11 Spectrally Encoded Sensors 266

8.12 Polarimetric Sensors 269

8.13 Fiber Interferometers 270

8.14 Two-Beam Fiber Interferometers 270

8.15 Multiple Beam Fiber Interferometers 272

8.17 Multiplexing and Smart Structures 276

8.18 Fiber Sensor Hype 276

9 Optical Systems279

9.1 Introduction 279

9.2 What, Exactly, Does a Lens Do? 279

9.3 Diffraction 288

9.4 Aberrations 300

9.5 Representing Aberrations 303

9.6 Optical Design Advice 306

9.7 Practical Applications 308

9.8 Illuminators 311

10 Optical Measurements315

10.1 Introduction 315

10.2 Grass on the Empire State Building 315

10.3 Detection Issues: When Exactly Is Background Bad? 318

1 Measure the Right Thing 322

10.5 Getting More Signal Photons 324

10.6 Reducing the Background Fluctuations 326

10.7 Optically Zero-Background Measurements 328

10.8 Spectrally Resolved Measurements 329

10.9 Electronically Zero-Background Measurements 333

10.10 Labeling Signal Photons 336

10.11 Closure 341

11 Designing Electro-Optical Systems343

11.1 Introduction 343

11.2 Do You ReallyWant To Do This? 343

11.3 Very Basic Marketing 350

11.4 Classes of Measurement 352

11.5 Technical Taste 354

11.6 Instrument Design 357

11.7 Guiding Principles 361

11.8 Design for Alignment 364

11.9 Turning a Prototype into a Product 367

12 Building Optical Systems371

12.1 Introduction 371

12.2 ConstructionStyle 371

12.3 Build What You Designed 372

12.4 Assembling Lab Systems 373

12.6 Collimating Beams 381

12.7 Focusing 383

12.8 Alignment and Testing 385

12.9 Prototypes 386

12.10 Aligning Beams with Other Beams 387

12.11 Advanced Tweaking 390

12.13 Adhesives 397

12.14 Cleaning 400

12.15 Environmental Considerations 402

13 Signal Processing405

13.1 Introduction 405

13.2 Analog Signal Processing Theory 406

13.4 Amplifiers 416

13.5 Departures From Linearity 416

13.6 Noise and Interference 420

13.7 Frequency Conversion 435

13.8 Filtering 438

13.9 Signal Detection 447

13.10 Reducing Interference and Noise 450

13.11 Data Acquisition and Control 452

14 Electronic Building Blocks457

14.1 Introduction 457

14.2 Resistors 457

14.3 Capacitors 460

14.4 Transmission Lines 470

14.5 Transmission Line Devices 476

14.6 Diodes 477

14.7 Bipolar Junction Transistors 479

14.8 Field-Effect Transistors (FETs) 486

14.9 Heterojunction FETs 487

14.10 Signal Processing Components 488

14.11 Digitizers 496

14.12 Analog Behavior of Digital Circuits 505

15 Electronic Subsystem Design507

15.1 Introduction 507

15.2 Design Approaches 507

15.3 Perfection 514

15.4 Feedback Loops 516

15.5 Local Feedback 522

15.6 Signal Detectors 522

15.7 Phase-Locked Loops 530

15.8 Calibration 535

15.9 Filters 537

15.10 Other Stuff 540

15.11 More Advanced Feedback Techniques 542

15.12 Hints 544

15.13 Linearizing 545

15.17 Bulletproofing 553

15.18 Interference 557

15.19 Reliable Designs 558

16 Electronic Construction Techniques559

16.1 Introduction 559

16.2 Circuit Strays 559

16.3 Circuit Boards 560

16.4 Stray Coupling 563

16.5 Ground Plane Construction 563

16.6 Technical Noise and Interference 566

16.7 Product Construction 572

16.8 Getting Ready 574

16.9 Prototyping 576

16.10 Surface Mount Prototypes 582

16.11 Prototyping Filters 585

16.12 Tuning, or, You Cant Hit What You Cant See 587

17 Digital Signal Processing591

17.1 Introduction 591

17.2 Elementary Operations 592

17.3 Dead Time Correction 595

17.4 Fourier Domain Techniques 595

17.5 The Fast Fourier Transform 602

17.6 Power Spectrum Estimation 608

17.7 Digital Filtering 612

17.8 Deconvolution 615

17.9 Resampling 617

17.10 Fixing Space-Variant Instrument Functions 618

17.11 Finite Precision Effects 619

17.12 Pulling Data Out of Noise 620

18 Front Ends627

18.1 Introduction 627

18.2 Photodiode Front Ends 628

18.3 Key Idea: Reduce the Swing Across Cd 630

18.4 Transimpedance Amplifiers 631

18.5 External Input Stages 635

18.6 How to Go Faster 648

18.7 Advanced Photodiode Front Ends 652

18.8 Other Types of Front End 658

18.9 Hints 660

19 Bringing Up the System665

19.1 Introduction 665

19.2 Avoiding Catastrophe 667

19.3 Debugging and Troubleshooting 670

19.4 Getting Ready 671

19.5 Indispensable Equipment 673

19.6 Debugging Pickup and Interference Problems 676

19.6.1 Test Setups 676

19.7 Digital Troubleshooting 677

19.8 Analog Electronic Troubleshooting 678

19.9 Oscillations 681

19.10 Other Common Problems 683

19.11 Debugging and Troubleshooting Optical Subsystems 685

19.12 Localizing the Problem 688

20 Thermal Control695

20.1 Introduction 695

20.2 Thermal Problems and Solutions 696

20.3 Heat Flow 699

20.4 Insulation 705

20.7 Heat Sinks 716

23 Local Feedback Loops 723

20.9 Temperature Controllers 725

Appendix A Good Books735

A.1 Why Books? 735

A.2 Good Books for Instrument Builders 735

Notation 743

Physical Constants and Rules of Thumb 745

Index 747