Quantum Information and Quantum Computing

A Quantum computer maintains a sequence of qubits. A single qubit can represent a one, a zero, or any quantum superposition of those two qubit states; a pair of qubits can be in any quantum superposition of 4 states, and three qubits in any superposition of 8 states. An Interpretation of Quantum mechanics is a set of statements which attempt to explain how Quantum mechanics informs our understanding of nature. In physics, the locality principle states that an object is only directly influenced by its immediate surroundings. Post-quantum cryptography refers to cryptographic algorithms (usually public-key algorithms) that are thought to be secure against an attack by a quantum computer. This is not true of the most popular public-key algorithms which can be efficiently broken by a sufficiently large quantum computer. The problem with the currently popular algorithms is that their security relies on one of three hard mathematical problems: the integer factorization problem, the discrete logarithm problem or the elliptic curve discrete logarithm problem.

  • Quantum Algorithms
  • Open System Dynamics And Decoherence
  • Quantum Circuits
  • Computational Complexity Theory
  • Quantum Information Theory
  • Quantum Dots
  • Quantum Spin Systems
  • Quantum Cryptography
  • Quantum Walks
  • Methods In Quantum Molecular Dynamics
  • Quantum Key Distribution
  • Quantum Many-Body Systems
  • Quantum Gates
  • Quantum Memory
  • Quantum Shannon Theory
  • Quantum Qubits
  • Quantum Communication
  • Trapped-Ion Quantum Engineering
  • Quantum Logic and Simulation
  • Quantum Tomography

Quantum Information and Quantum Computing Conference Speakers

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