A REPORT ON QUANTUM COMPUTING
... referred to as a 'qubit', exist in the classical 0 and 1 states, it can also be in a coherent superposition of both. When a qubit is in this state it can be thought of as existing in two universes, as a 0 in one universe and as a 1 in the other. An operation on such a qubit effectively acts on both ...
... referred to as a 'qubit', exist in the classical 0 and 1 states, it can also be in a coherent superposition of both. When a qubit is in this state it can be thought of as existing in two universes, as a 0 in one universe and as a 1 in the other. An operation on such a qubit effectively acts on both ...
The Free Particle (PowerPoint)
... The dual nature of matter (Quick Time movie 9 MB from Wilson group, *** ) Linear polarized light ( a wave function in 1-D would propagate in a similar way) (1 MB Quick time movie from the Wilson Group, *****) Circular polarized light ( ( a wave function could propagate in a similar way) (6 MB Quick ...
... The dual nature of matter (Quick Time movie 9 MB from Wilson group, *** ) Linear polarized light ( a wave function in 1-D would propagate in a similar way) (1 MB Quick time movie from the Wilson Group, *****) Circular polarized light ( ( a wave function could propagate in a similar way) (6 MB Quick ...
Nuclear Physics - University of Houston
... •The nuclear force is understood as an exchange of field quanta called gluons •The nucleus is a VERY complicated interaction of many hadrons whose interaction is described by a theory called Quantum Chromodynamics ...
... •The nuclear force is understood as an exchange of field quanta called gluons •The nucleus is a VERY complicated interaction of many hadrons whose interaction is described by a theory called Quantum Chromodynamics ...
16-6 Electric Field: Special Cases
... Key idea: The acceleration of a charged particle in a uniform electric field is constant, so the constant-acceleration equations from Chapters 2 and 4 apply. The scale of the accelerations and times are different but the physics is the same. Related End-of-Chapter Exercises: 27 and 28. EXAMPLE 16.6A ...
... Key idea: The acceleration of a charged particle in a uniform electric field is constant, so the constant-acceleration equations from Chapters 2 and 4 apply. The scale of the accelerations and times are different but the physics is the same. Related End-of-Chapter Exercises: 27 and 28. EXAMPLE 16.6A ...
Signed quantum weight enumerators
... ρ are projected onto the code space of a stabilizer code, and an output state ρ0 is decoded. Codes vary in terms of the rate at which they improve the fidelity of resource states, and often several iterations are necessary to obtain a high-fidelity magic state. Codes can also worsen the fidelity of ...
... ρ are projected onto the code space of a stabilizer code, and an output state ρ0 is decoded. Codes vary in terms of the rate at which they improve the fidelity of resource states, and often several iterations are necessary to obtain a high-fidelity magic state. Codes can also worsen the fidelity of ...
General Mathematical Description of a Quantum System
... is represented by a vector belonging to a complex vector space known as the state space of the system. Here we will give a list of the defining conditions of a state space, though we will not be concerning ourselves too much with the formalities. The following definitions and concepts set up the sta ...
... is represented by a vector belonging to a complex vector space known as the state space of the system. Here we will give a list of the defining conditions of a state space, though we will not be concerning ourselves too much with the formalities. The following definitions and concepts set up the sta ...
Quantum State Control via Trap-induced Shape Resonance in
... 3 + z02 /a2 . The location and gap of the avoided crossing depends strongly on the molecular binding energy. For a deeply bound state, but still positive scattering length, corresponding to 0 < a ≪ z0 , the resonance occurs at much larger separations and with an exponentially small energy gap. This ...
... 3 + z02 /a2 . The location and gap of the avoided crossing depends strongly on the molecular binding energy. For a deeply bound state, but still positive scattering length, corresponding to 0 < a ≪ z0 , the resonance occurs at much larger separations and with an exponentially small energy gap. This ...
THE DEFECT EFFECT ON THE ELECTRONIC CONDUCTANCE IN H. S. Ashour
... the central element of the binomial tailored quantum wire, and keeping the other elements and the spacing between the Dirac delta function potentials constant, on the electronic conductance through the BTQW. First, we consider the strength defect does not exceed ±5% of the Dirac delta function poten ...
... the central element of the binomial tailored quantum wire, and keeping the other elements and the spacing between the Dirac delta function potentials constant, on the electronic conductance through the BTQW. First, we consider the strength defect does not exceed ±5% of the Dirac delta function poten ...
Berry phases near degeneracies: Beyond the simplest
... It was this motivation that led me to the example presented here. In this example the degeneracy is twofold, but the Chern number is ⫾2. In discussing it, I found myself invoking basic Berry phase concepts repeatedly, and so I have included a review of these concepts. One could equally well read the ...
... It was this motivation that led me to the example presented here. In this example the degeneracy is twofold, but the Chern number is ⫾2. In discussing it, I found myself invoking basic Berry phase concepts repeatedly, and so I have included a review of these concepts. One could equally well read the ...
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 ...
Glassy Chimeras Could Be Blind to Quantum Speedup:
... exploit quantum effects. However experiments on a class of random-bond instances have not yet demonstrated an advantage over classical optimization algorithms on traditional computer hardware. Here we present evidence as to why this might be the case. These engineered quantum annealing machines effe ...
... exploit quantum effects. However experiments on a class of random-bond instances have not yet demonstrated an advantage over classical optimization algorithms on traditional computer hardware. Here we present evidence as to why this might be the case. These engineered quantum annealing machines effe ...
Formulation of Liouville`s Theorem for Grand Ensemble Molecular
... stationary solution for ρ(t), in case of a thermal bath (heat reservoir), is the density matrix of a canonical ensemble. The mathematical analysis of such concepts has been extensively done in Ref.[1] but, for our current focus, there is one important concept that we can transfer into the treatment ...
... stationary solution for ρ(t), in case of a thermal bath (heat reservoir), is the density matrix of a canonical ensemble. The mathematical analysis of such concepts has been extensively done in Ref.[1] but, for our current focus, there is one important concept that we can transfer into the treatment ...