Factoring 51 and 85 with 8 qubits
... Given the considerable interest in experimental demonstrations of Shor’s algorithm, it is reasonable to ask what constitutes a ‘‘genuine’’ demonstration of this important algorithm, and whether the cases presented here should be considered as such. In our opinion a genuine implementation should use ...
... Given the considerable interest in experimental demonstrations of Shor’s algorithm, it is reasonable to ask what constitutes a ‘‘genuine’’ demonstration of this important algorithm, and whether the cases presented here should be considered as such. In our opinion a genuine implementation should use ...
Diamond NV centers for quantum computing and quantum
... Grover’s algorithm—using two spins associated (∼637 nm) of a NV center at low temperature (9 K). Scanning a laser in frequency while monitoring the NV fluorescence reveals narrow, spectrally resolved lines that correspond with a NV center,10 hinting at the possibilities to transitions originating fr ...
... Grover’s algorithm—using two spins associated (∼637 nm) of a NV center at low temperature (9 K). Scanning a laser in frequency while monitoring the NV fluorescence reveals narrow, spectrally resolved lines that correspond with a NV center,10 hinting at the possibilities to transitions originating fr ...
this essay - u.arizona.edu
... information could a quantum “measurement” convey? He gives an answer in terms of the probabilities and frequencies involved in a classic example of (what is called) a quantum measurement: the Stern-Gerlach apparatus. This is said to measure the spin component of a system like a silver atom by passin ...
... information could a quantum “measurement” convey? He gives an answer in terms of the probabilities and frequencies involved in a classic example of (what is called) a quantum measurement: the Stern-Gerlach apparatus. This is said to measure the spin component of a system like a silver atom by passin ...
pdf - at www.arxiv.org.
... scattering of the charge carriers in the nanostructure. In a low-dimensional semiconductor nanostructure the scattering electron has restricted possibilities as far as the dimensionality of the space in which the electron can leave the scattering target after a collision is concerned. In the extreme ...
... scattering of the charge carriers in the nanostructure. In a low-dimensional semiconductor nanostructure the scattering electron has restricted possibilities as far as the dimensionality of the space in which the electron can leave the scattering target after a collision is concerned. In the extreme ...
Nanowires for Quantum Optics - Leo Kouwenhoven
... intensity for right circular excitation. The photoluminescence is dominantly right circular polarized, demonstrating that the exciton spin is conserved during relaxation. Our nanowire quantum dots can therefore act as spin memories for time scales in excess of their radiative lifetimes (of about 1 n ...
... intensity for right circular excitation. The photoluminescence is dominantly right circular polarized, demonstrating that the exciton spin is conserved during relaxation. Our nanowire quantum dots can therefore act as spin memories for time scales in excess of their radiative lifetimes (of about 1 n ...
The Dual Nature of the Electron
... time results in single particles appearing on the screen, as expected. Remarkably, however, an interference pattern emerges when these particles are allowed to build up one by one…. This demonstrates wave-particle duality which states that all matter exhibits both wave and particle properties…. [8]. ...
... time results in single particles appearing on the screen, as expected. Remarkably, however, an interference pattern emerges when these particles are allowed to build up one by one…. This demonstrates wave-particle duality which states that all matter exhibits both wave and particle properties…. [8]. ...
Physics from Computer Science — a position statement —
... We have benefited from the currently available categorical semantics for Girard’s linear logic [42], a resource sensitive logic developed in the late eighties. A key distinction between classical and quantum computation is indeed the inability to copy and delete unknown quantum states [37, 47], and ...
... We have benefited from the currently available categorical semantics for Girard’s linear logic [42], a resource sensitive logic developed in the late eighties. A key distinction between classical and quantum computation is indeed the inability to copy and delete unknown quantum states [37, 47], and ...
On Quantum Nonseparability - Philsci
... An unambiguous discussion of the part-whole relation in classical physics namely, the relation between a compound system and its constituent subsystems with respect to the interconnection of their properties requires the technical conception of the formulation of a compound system on the state s ...
... An unambiguous discussion of the part-whole relation in classical physics namely, the relation between a compound system and its constituent subsystems with respect to the interconnection of their properties requires the technical conception of the formulation of a compound system on the state s ...
Slides - cchem.berkeley.edu
... Quantum Metrology: High precision measurement of quantum systems. Quantum Control: Classical control theory is complete to guide a quantum machine. Quantum Communication: Quantum-based protocols more powerful than their classical counterparts in order to inter-connect components of a quantum complex ...
... Quantum Metrology: High precision measurement of quantum systems. Quantum Control: Classical control theory is complete to guide a quantum machine. Quantum Communication: Quantum-based protocols more powerful than their classical counterparts in order to inter-connect components of a quantum complex ...
The relation between quantum mechanics and higher brain
... resonance scanner in an neuropsychological experiment. Hence, QM is the well-established nonrelativistic ‘text-book theory’ of atoms, electrons and photons, below the energy for pair creation of massive particles (see e.g. Gottfried and Yan 2003). In contrast to classical physics and to that other g ...
... resonance scanner in an neuropsychological experiment. Hence, QM is the well-established nonrelativistic ‘text-book theory’ of atoms, electrons and photons, below the energy for pair creation of massive particles (see e.g. Gottfried and Yan 2003). In contrast to classical physics and to that other g ...
The Infinite Square Well 6.1 Separability of Schrödinger`s Equation
... the stationary state Ψn (x, t). This interpretation is also reasonable from a linear algebra point of view – the decomposition coefficients cm tell us how much Ψm (x, t) is in Ψ(x, t), and so it is easy to predict the state selected by measurement. The story is only mildly different for other operat ...
... the stationary state Ψn (x, t). This interpretation is also reasonable from a linear algebra point of view – the decomposition coefficients cm tell us how much Ψm (x, t) is in Ψ(x, t), and so it is easy to predict the state selected by measurement. The story is only mildly different for other operat ...
here
... • The set of possible instantaneous locations of a classical particle is called its configuration space. This is usually three dimensional Euclidean space R3 . The number of coordinates needed to specify the instantaneous configuration of a system is the number of degrees of freedom. A system consis ...
... • The set of possible instantaneous locations of a classical particle is called its configuration space. This is usually three dimensional Euclidean space R3 . The number of coordinates needed to specify the instantaneous configuration of a system is the number of degrees of freedom. A system consis ...
Quantum-assisted biomolecular modelling
... detail, what they predict, and comparing this with our observations (e.g. an experimentally determined binding constant for a protein–drug interaction). If our calculations and observations agree as well as we anticipate, this is evidence that our models are appropriate and that we understand (at so ...
... detail, what they predict, and comparing this with our observations (e.g. an experimentally determined binding constant for a protein–drug interaction). If our calculations and observations agree as well as we anticipate, this is evidence that our models are appropriate and that we understand (at so ...
