Cover Story Can Quantum Computing Provide Exponential
... contributions in high performance computing (including the development of Param, the Indian supercomputer), Indian language computing, education to home and integrative education and building institutions like CDAC, ER&DC and I2IT. CSI also congratulates Prof. Bimal K. Roy, Director of the Indian St ...
... contributions in high performance computing (including the development of Param, the Indian supercomputer), Indian language computing, education to home and integrative education and building institutions like CDAC, ER&DC and I2IT. CSI also congratulates Prof. Bimal K. Roy, Director of the Indian St ...
Information and Entropy in Neural Networks and Interacting Systems
... but the coherence length is the interqubit distance. (d) In our third model of completely entangled network all qubits are in coherence and the gates also maintain the coherence. . . . . . 47 ...
... but the coherence length is the interqubit distance. (d) In our third model of completely entangled network all qubits are in coherence and the gates also maintain the coherence. . . . . . 47 ...
Mathematical foundation of quantum annealing
... solution of the optimization problem. The idea is that the system is expected to stay close to thermal equilibrium during time evolution if the rate of decrease in temperature is sufficiently slow, and is thus led in the end to the zero-temperature equilibrium state, the lowest-energy state. In prac ...
... solution of the optimization problem. The idea is that the system is expected to stay close to thermal equilibrium during time evolution if the rate of decrease in temperature is sufficiently slow, and is thus led in the end to the zero-temperature equilibrium state, the lowest-energy state. In prac ...
Chapter 3: Quantum Computing
... arbitrarily high likelihood if an obstructing body has been inserted into the system, without moving or modifying its optical components; moreover, In the case that the obstructing body is present, IFM uses at most an arbitrarily small multiplicative factor of the input intensity to do the sensing. ...
... arbitrarily high likelihood if an obstructing body has been inserted into the system, without moving or modifying its optical components; moreover, In the case that the obstructing body is present, IFM uses at most an arbitrarily small multiplicative factor of the input intensity to do the sensing. ...
PDF
... In an atomic interferometer, the phase shift due to rotation is proportional to the area enclosed by the split components of the atom. In most situations, the atomic wavepacket is split first by what can be considered effectively as an atomic beamsplitter. The split components are then redirected to ...
... In an atomic interferometer, the phase shift due to rotation is proportional to the area enclosed by the split components of the atom. In most situations, the atomic wavepacket is split first by what can be considered effectively as an atomic beamsplitter. The split components are then redirected to ...
Read PDF - Physics (APS) - American Physical Society
... can further perturb the system [1]. In optomechanics [2], coherent light fields serve as the intermediary between the fragile mechanical states and our inherently classical world by exerting radiation pressure forces and extracting mechanical information. Here, we engineer a microwave cavity optomec ...
... can further perturb the system [1]. In optomechanics [2], coherent light fields serve as the intermediary between the fragile mechanical states and our inherently classical world by exerting radiation pressure forces and extracting mechanical information. Here, we engineer a microwave cavity optomec ...
A Combinatorial Approach to Nonlocality and Contextuality
... parallel execution of these scenarios and naturally incorporates the no-signaling condition. In particular, the Bell scenarios which describe nonlocality turn out to be given by Foulis–Randall products. We define a probabilistic model as an assignment of a probability to each outcome in such a way t ...
... parallel execution of these scenarios and naturally incorporates the no-signaling condition. In particular, the Bell scenarios which describe nonlocality turn out to be given by Foulis–Randall products. We define a probabilistic model as an assignment of a probability to each outcome in such a way t ...
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Entangling Dipole-Dipole Interactions and Quantum Logic in Optical
... an architecture that is naturally scalable to operate in parallel on many atoms [21]. Other possibilities for trapping and manipulating ultracold atoms exist, including miniature magnetic traps [22], but these will not be addressed here. In this paper we consider controlled entanglement via resonant ...
... an architecture that is naturally scalable to operate in parallel on many atoms [21]. Other possibilities for trapping and manipulating ultracold atoms exist, including miniature magnetic traps [22], but these will not be addressed here. In this paper we consider controlled entanglement via resonant ...
