Decoherence Time Metrics
Decoherence is one of the biggest challenges in quantum computing. It refers to the process by which a quantum system loses its quantum properties due to interaction with the environment…..
Tag: quantum decoherence
Quantum Gate Speed
Quantum gate speed refers to how fast a quantum gate operation can be executed on a quantum computer. It is a crucial parameter for evaluating the performance, efficiency, and feasibility….
Decoherence in Biological Environments
1. Introduction: The Quantum-Biology Crossroad The idea that quantum effects might operate in biological systems has opened up an exciting new field of study. But this intersection between the weirdness….
Quantum Information in DNA Mutation
1. Introduction: Classical View vs Quantum Curiosity At the heart of life lies DNA—a code built from four bases (A, T, G, and C) that carries genetic instructions. When DNA….
Quantum Optomechanics
Optomechanics is the study of how light (optics) and mechanical systems (mechanics) interact. More specifically, quantum optomechanics looks at how quantum light interacts with tiny mechanical oscillators, such as membranes,….
Error Correction in NISQ Devices
NISQ stands for Noisy Intermediate-Scale Quantum. These are the quantum computers we have today: In this context, error correction means finding ways to reduce, avoid, or compensate for errors in….
Superconducting Qubits
Superconducting qubits are tiny electrical circuits that behave like artificial atoms. They are built using materials that, when cooled down to extremely low temperatures, allow electricity to flow with zero….
Quantum Decoherence
1. The Big Picture: Why Quantum Is So Special Quantum systems are different from classical ones because of superposition and entanglement: This gives quantum computers a massive edge in theory…..
Qubits and Quantum States
In classical computing, we rely on bits — tiny switches that are either off (0) or on (1). Every digital device you use operates using billions of these bits. But….