Introduction to Quantum Information and Computation for Chemistry
Introduction to Quantum Information and Computation for Chemistry

Correlaciones en Mecánica Cuántica
Correlaciones en Mecánica Cuántica

... Entanglement [1, 2] is perhaps the kind of quantum correlations more known and studied and since it was first described by Einstein, Podolsky and Rosen [3] has attracted the attention and interest of scientists being studied both theoretically [4—9] and experimentally [10—15], becoming considered a ...
Quantum Computing - Department of Computing
Quantum Computing - Department of Computing

Synthesizing arbitrary quantum states in a superconducting resonator
Synthesizing arbitrary quantum states in a superconducting resonator

... with classical control signals. Here we demonstrate the preparation and measurement of arbitrary quantum states in an electromagnetic resonator, superposing states with different numbers of photons in a completely controlled and deterministic manner. We synthesize the states using a superconducting ...
Relaxation of a qubit measured by a driven Duffing oscillator
Relaxation of a qubit measured by a driven Duffing oscillator

Emulating Quantum Computation
Emulating Quantum Computation

Quantum Computing
Quantum Computing

... the n di erent qubits. Occasionally we need some other notation for distinguishing them, in which case we denote the i'th qubit by V [i] . Since quantum states are invariant under multiplication by scalars, they can be normalized to be unit length vectors; except where otherwise noted, quantum state ...
Shor state
Shor state

gr-qc/9409015 DO WE UNDERSTAND BLACK HOLE ENTROPY
gr-qc/9409015 DO WE UNDERSTAND BLACK HOLE ENTROPY

Encoding one logical qubit into six physical qubits
Encoding one logical qubit into six physical qubits

Entropy - Molecular Diversity Preservation International
Entropy - Molecular Diversity Preservation International

... on the di erent interpretations of this concept. Entropy is the only physical quantity that always increases. It has such an importance that it can't stay dissociated from more familiar concepts. In this paper,we will analyze the above interpretations and propose the following results: (1) Entropy i ...
Distances in Probability Space and the Statistical Complexity
Distances in Probability Space and the Statistical Complexity

Full text in PDF form
Full text in PDF form

Investigating the Feasibility of Solving the Quadratic Assignment
Investigating the Feasibility of Solving the Quadratic Assignment

Jagiellonian University M. Smoluchowski Institute of Physics Entropy
Jagiellonian University M. Smoluchowski Institute of Physics Entropy

... The set of all quantum channels is still not completely understood. Merely the set of onequbit channels is satisfactory explored [37, 38]. in this simplest case some interesting problems are open. ...
ADIABATIC QUANTUM COMPUTATION
ADIABATIC QUANTUM COMPUTATION

Certainty relations, mutual entanglement, and nondisplaceable
Certainty relations, mutual entanglement, and nondisplaceable

Superconducting Qubits and Circuits: Artificial Atoms Coupled to
Superconducting Qubits and Circuits: Artificial Atoms Coupled to

Reliable quantum computers
Reliable quantum computers

Approaches to Quantum Error Correction
Approaches to Quantum Error Correction

... was not clear at all if and how quantum error correction could work. The second big breakthrough towards quantum computing (after Shor’s algorithm) was the insight that quantum noise can be combatted or that quantum error protection and correction is possible. The first big step in this direction wa ...
DEMONSTRATION OF RYDBERG BLOCKADE AND A NEUTRAL
DEMONSTRATION OF RYDBERG BLOCKADE AND A NEUTRAL

hybrid quantum computation - Centre for Quantum Technologies
hybrid quantum computation - Centre for Quantum Technologies

... distribution (QKD) protocol was introduced in 1984 by Charles Bennett and Gilles Brassard, now referred as BB84 [11]. Through a QKD protocol, private key bits can be generated over a public channel. The key bits can then be used for a classical private key cryptosystem with the one-time pad algorith ...
The Quantum IO Monad - School of Computer Science
The Quantum IO Monad - School of Computer Science

Achieving quantum supremacy with sparse and noisy commuting
Achieving quantum supremacy with sparse and noisy commuting

Basic elements of quantum information technology
Basic elements of quantum information technology

Algorithmic cooling

Algorithmic cooling is a phenomenon in quantum computation in which the processing of certain types of computation results in negative entropy and thus a cooling effect.The phenomenon is a result of the connection between thermodynamics and information theory. In so far as information is encoded in physical systems it is subject to the laws of thermodynamics.Certain processes within computation require a change in entropy within the computing system. As data must be stored as some kind of ordered structure (like a localized charge in a capacitor) so the erasure of data by destroying this order must involve an increase in disorder, or entropy. This means that the erasure of data releases heat. This is Landauer's principle.Reversible computing or Adiabatic computing is a theoretical type of computing in which data is never erased, it just changes state or is marked to be ignored. In theory such a system would be able to ""hide"" data without releasing heat.In the case of quantum entangled data, or qubits, it is possible for a computation to result in negative entropy, actually transferring heat out of the computational system, and so cooling it.