Superconducting Circuits and Quantum Computation T. P. Orlando
... Frank K. Wilhelm , Raymond N. Schouten , Professor Terry P. Orlando Quantum computers are devices that store information on quantum variables such as spin, photons, and atoms, and process that information by making those variables interact in a way that preserves quantum coherence. Typically, these ...
... Frank K. Wilhelm , Raymond N. Schouten , Professor Terry P. Orlando Quantum computers are devices that store information on quantum variables such as spin, photons, and atoms, and process that information by making those variables interact in a way that preserves quantum coherence. Typically, these ...
Two Qubits Tavis-Cummings Model Beyond the Rotating Wave
... parts of α in the integral (25). From equation (27), we see that knowing P (α) or its Fourier transform, P̃ , that characterizes the initial state of the oscillator, we can follow the evolution of entanglement between the qubits. Qubits initially in state |Ψ+ i and oscillator in the thermal state: T ...
... parts of α in the integral (25). From equation (27), we see that knowing P (α) or its Fourier transform, P̃ , that characterizes the initial state of the oscillator, we can follow the evolution of entanglement between the qubits. Qubits initially in state |Ψ+ i and oscillator in the thermal state: T ...
Quantum computers - Quantum Engineering Group
... T. D. Ladd1{, F. Jelezko2, R. Laflamme3,4,5, Y. Nakamura6,7, C. Monroe8,9 & J. L. O’Brien10 Over the past several decades, quantum information science has emerged to seek answers to the question: can we gain some advantage by storing, transmitting and processing information encoded in systems that e ...
... T. D. Ladd1{, F. Jelezko2, R. Laflamme3,4,5, Y. Nakamura6,7, C. Monroe8,9 & J. L. O’Brien10 Over the past several decades, quantum information science has emerged to seek answers to the question: can we gain some advantage by storing, transmitting and processing information encoded in systems that e ...
Quantum Mechanics- wave function
... In the 1920s and 1930s, quantum mechanics was developed using calculus and linear algebra. Those who used the techniques of calculus included Louis de Broglie, Erwin Schrödinger, and others, developing "wave mechanics". Those who applied the methods of linear algebra included Werner Heisenberg, Max ...
... In the 1920s and 1930s, quantum mechanics was developed using calculus and linear algebra. Those who used the techniques of calculus included Louis de Broglie, Erwin Schrödinger, and others, developing "wave mechanics". Those who applied the methods of linear algebra included Werner Heisenberg, Max ...
Adiabatic=Quantum.Ah.. - Duke Computer Science
... Not enough interaction between clock and computer to have terms like: H k I | k k | I | k 1k 1 | ...
... Not enough interaction between clock and computer to have terms like: H k I | k k | I | k 1k 1 | ...
Quantum effects in chemistry - Fritz Haber Center for Molecular
... be important in electron transfer kinetics. Decoherence among these pathways can arise from inelastic effects in the molecules, or from motions that describe either pure dephasing (T2*) or energy relaxation (T1). As examples, the authors discuss biological and biomimetic systems, where nuclear fluct ...
... be important in electron transfer kinetics. Decoherence among these pathways can arise from inelastic effects in the molecules, or from motions that describe either pure dephasing (T2*) or energy relaxation (T1). As examples, the authors discuss biological and biomimetic systems, where nuclear fluct ...
104,18415 (2007)
... another, thereby exploiting the statistical effects of these braids. Therefore, implementation of these gates is immune to local deformations of the braiding trajectory since the effects of the braid transformations are statistical and hence only depend on the braid topologies. In this sense, the pu ...
... another, thereby exploiting the statistical effects of these braids. Therefore, implementation of these gates is immune to local deformations of the braiding trajectory since the effects of the braid transformations are statistical and hence only depend on the braid topologies. In this sense, the pu ...
Classical Simulation of Quantum Systems
... of many-body systems are now possible for quite large particle numbers N. Nevertheless, classical many-body physics is far from being fully explored. In quantum mechanical problems, computations are much more difficult due to the fact that the dimension of the Hilbert space of a quantum system grows ...
... of many-body systems are now possible for quite large particle numbers N. Nevertheless, classical many-body physics is far from being fully explored. In quantum mechanical problems, computations are much more difficult due to the fact that the dimension of the Hilbert space of a quantum system grows ...
Document
... Fundamental noise in interference experiments Amplitude of interference fringes is a quantum operator. The measured value of the amplitude will fluctuate from shot to shot. We want to characterize not only the average but the fluctuations as well. ...
... Fundamental noise in interference experiments Amplitude of interference fringes is a quantum operator. The measured value of the amplitude will fluctuate from shot to shot. We want to characterize not only the average but the fluctuations as well. ...