quantum information theory
Quantum information theory is a branch of physics that studies how information is encoded, transmitted, and processed using the principles of quantum mechanics. It explores the fundamental properties and behaviors of quantum systems, such as superposition and entanglement, to develop efficient methods for storing, manipulating, and communicating information at the quantum level.
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Related Concepts (36)
- applications and implications of aspect experiments
- bohmian mechanics
- entanglement
- epr paradox
- non-local correlations
- non-local quantum field theory
- non-locality
- nonlocality
- quantum communication
- quantum computing
- quantum darwinism
- quantum entangled systems
- quantum entanglement and communication
- quantum entanglement experiments
- quantum entanglement swapping
- quantum entanglement teleportation
- quantum indeterminacy
- quantum information processing
- quantum machine learning
- quantum mechanics
- quantum noise
- quantum non-locality
- quantum nonlocality
- quantum optics
- quantum physics
- quantum probability
- quantum randomness
- quantum state
- quantum statistical mechanics
- quantum theory
- quantum theory of measurement
- violation of bell's inequalities
- violations of the chsh inequality
- violations of the eberhard inequality
- violations of the mermin inequality
- violations of the peres-mermin inequality
Similar Concepts
- information theory
- quantum chaos and quantum information theory
- quantum chaos theory
- quantum complexity theory
- quantum cosmology
- quantum cryptography
- quantum entanglement and information theory
- quantum entanglement and quantum field theory
- quantum entanglement as information storage
- quantum entanglement theory
- quantum field theory
- quantum information
- quantum information storage
- quantum measurement theory
- quantum probability theory