Overview

About the Book Quantum Computing Disentangled breaks down one of the most complex frontiers of science into clear, accessible ideas. Quantum computing is hailed as the next great leap after classical computers-promising breakthroughs in medicine, finance, climate, and cybersecurity. Yet for many, it remains a subject shrouded in math and mystery. This book bridges that gap. Instead of starting with wavefunctions or dense equations, it uses analogies, storytelling, and step-by-step concepts to explain what makes quantum computers different, how they work, and why they matter. Readers will journey from the history of computing to the leap from bits to qubits, through quantum gates, algorithms, simulation, communication, and real-world applications. The book also explores hardware modalities-trapped ions, superconductors, photons, and more-comparing their physics and performance to help readers critically engage with the technology and its fast-growing ecosystem. Whether you are a student, policymaker, professional, or simply curious, Quantum Computing Disentangled offers an approachable guide to a field that will shape the future. Chapters Qubits Demystified: The Quantum Heart of Computation Bits vs Qubits, Wave Function, Schrödinger Equation, Bra-Ket, Bloch Sphere, Superposition, Entanglement, Bell States, Bell Theorem, Inequality, Locality, EPR Paradox, Decoherence, Physical/Logical/Algorithmic Qubits Hardware of the Quantum World Modalities, Technologies, Terms, Comparisons & Players for Superconducting, Trapped Ion, Photonic, Silicon Spin, Diamond NV, Neutral Atom, Topological, Annealing Information in the Quantum World Superposition, Entanglement, Measurement, State Collapse, No Cloning Theorem, Teleportation, Fragility, Factors for Decoherence, Quantum Error Correction Building Quantum Logic: Gates and Circuits State Vectors, Hilbert Space, Probability Amplitudes, Phase, Matrix Unitarity and Reversibility, Pauli Gates (X, Y, Z), Hadamard (H), Self-Inverse, Rotation, Phase (Z, S, T), Clifford Gates, Two-Qubit Gates (CNOT, CZ, SWAP, iSWAP), Three-Qubit Gates (Fredkin, Toffoli), Gate Selection and Sequencing, Circuit Examples (GHZ, Bell States), Measurement Quantum Algorithms Search, Oracle Function, Diffusion, Amplitude Amplification, Interference, Quantum Fourier Transform, Grover's Algorithm, Shor's Algorithm, Example Problems Teleportation: How It Works Step-by-step explanation with example Quantum Stack - Coding in the Quantum Era Qiskit, Cirq, Q#, Braket SDK, pyQuil, Forest SDK, PennyLane, Ocean SDK, Case Study, QUBO, QAOA, OpenFermion, Selecting Quantum Stack Quantum Communication - Enabling the Future of Secure Connectivity QKD, BB84 Protocol, E91 Protocol, Teleportation, Entanglement Swapping, Components of a Quantum Communication System, Quantum Networks, Quantum Internet, Distributed Quantum Computing, Post-Quantum Cryptography Quantum Impact - Real World Applications & the Long View Chemistry & Materials, Life Sciences, Quantum Sensing in Health, Food, Agriculture, Climate, Energy, Finance, Logistics, Infrastructure, Global Initiatives, Roadmaps Quantum Simulation - Simulating Nature Analog & Digital Simulation, Simulators, Applications, Digital Twins, Predictive Intelligence Quantum AI - Learning in Superposition Quantum Machine Learning, Variational Quantum Circuits, QML Algorithms & Models, Use Cases, AI Behind Digital Twins About the Author Niraj Gupta is a physicist and strategist with 40+ years in quantum science, semiconductors, telecom, and policy. With dual physics master's from IIT Delhi and an MBA, he's led at STMicroelectronics, Ericsson, Alcatel, and AT&T. A bestselling author and speaker, he now champions quantum education.

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