Quantum neural networks
... The field of neural networks contains several important basic ideas, which include the concept of a processing element (neuron), the transformation performed by this element (in general, input summation and nonlinear mapping of the result into an output value), the interconnection structure between ...
... The field of neural networks contains several important basic ideas, which include the concept of a processing element (neuron), the transformation performed by this element (in general, input summation and nonlinear mapping of the result into an output value), the interconnection structure between ...
QUANTUM ALGORITHMS FOR ELEMENT DISTINCTNESS∗ 1
... date, the two main examples being Shor’s algorithm for factoring [22] and Grover’s algorithm for searching [15]. Whereas the first so far has remained a seminal but somewhat isolated result, the second has been applied as a building block in quite a few other quantum algorithms [7, 9, 11, 12, 19, 10 ...
... date, the two main examples being Shor’s algorithm for factoring [22] and Grover’s algorithm for searching [15]. Whereas the first so far has remained a seminal but somewhat isolated result, the second has been applied as a building block in quite a few other quantum algorithms [7, 9, 11, 12, 19, 10 ...
Complexity Science, Living Systems, and Reflexing Interfaces:
... electromagnetic field confined inside the hollow MTs core can give rise to the collective quantum optical modes responsible for the phenomenon of superradiance by which any incoherent molecular electromagnetic energy can be transformed in a coherent photon inside the MTs. These photons propagate alo ...
... electromagnetic field confined inside the hollow MTs core can give rise to the collective quantum optical modes responsible for the phenomenon of superradiance by which any incoherent molecular electromagnetic energy can be transformed in a coherent photon inside the MTs. These photons propagate alo ...
Document
... Silicon offers a particularly interesting platform for spin qubits because when isotopically purified, silicon acts as a “semiconductor vacuum” for spins, giving it extraordinary coherence. The exceptionally long quantum coherence times of phosphorus donor nuclear spin qubits in silicon [1], coupled ...
... Silicon offers a particularly interesting platform for spin qubits because when isotopically purified, silicon acts as a “semiconductor vacuum” for spins, giving it extraordinary coherence. The exceptionally long quantum coherence times of phosphorus donor nuclear spin qubits in silicon [1], coupled ...
Effective Field Theory Lectures
... the ideas of Wilson and others that were developed in the early 1970s and completely turned on its head how we think about UV (high energy) physics and renormalization, and how we ...
... the ideas of Wilson and others that were developed in the early 1970s and completely turned on its head how we think about UV (high energy) physics and renormalization, and how we ...
ADIABATIC QUANTUM COMPUTATION
... transformations are unitary (probability preserving) and are called quantum gates [2, 3]. An arbitrary quantum computation (reversible operation) on any number of qubits can be generated by a finite set of quantum gates. Such set is said to be universal for quantum computation. An universal gates fo ...
... transformations are unitary (probability preserving) and are called quantum gates [2, 3]. An arbitrary quantum computation (reversible operation) on any number of qubits can be generated by a finite set of quantum gates. Such set is said to be universal for quantum computation. An universal gates fo ...
A REPORT ON QUANTUM COMPUTING
... being that by performing the single operation on the qubit, we have performed the operation on two different values. Likewise, a two-qubit system would perform the operation on 4 values, and a three-qubit system on eight. Increasing the number of qubits therefore exponentially increases the 'quantum ...
... being that by performing the single operation on the qubit, we have performed the operation on two different values. Likewise, a two-qubit system would perform the operation on 4 values, and a three-qubit system on eight. Increasing the number of qubits therefore exponentially increases the 'quantum ...
PPT
... o detailed elementary particle composition o characteristics like mass, charge or spin 2) The total spin must have an integer value 3) The identity requirement extends also on the values of observables corresponding to internal degrees of freedom 4) which are not allowed to vary during the dynamical ...
... o detailed elementary particle composition o characteristics like mass, charge or spin 2) The total spin must have an integer value 3) The identity requirement extends also on the values of observables corresponding to internal degrees of freedom 4) which are not allowed to vary during the dynamical ...
