Chapter 14.
... function calculation block of the oracle. It occurs in nearly all oracles that we have already built for problems in which the solution cost is being optimized. This circuit is useful in every case when one wants to calculate the number of bits “one” in a binary vector, it is thus used in many cost ...
... function calculation block of the oracle. It occurs in nearly all oracles that we have already built for problems in which the solution cost is being optimized. This circuit is useful in every case when one wants to calculate the number of bits “one” in a binary vector, it is thus used in many cost ...
An Effective Quantum Potential for Particle
... quantum-corrected one. The pseudo-differential operator (PDO) for the effective quantum potential we build on here is based on a perturbation theory around thermal equilibrium [1, 2], was first derived in [3], and used to include the interaction between potential wells and single electrons in previo ...
... quantum-corrected one. The pseudo-differential operator (PDO) for the effective quantum potential we build on here is based on a perturbation theory around thermal equilibrium [1, 2], was first derived in [3], and used to include the interaction between potential wells and single electrons in previo ...
Introduction to Quantum Computation
... Physics and Computation • Information is stored in a physical medium, and manipulated by physical processes. • The laws of physics dictate the capabilities of any information processing device. • Designs of “classical” computers are implicitly based in the classical framework for physics • Classica ...
... Physics and Computation • Information is stored in a physical medium, and manipulated by physical processes. • The laws of physics dictate the capabilities of any information processing device. • Designs of “classical” computers are implicitly based in the classical framework for physics • Classica ...
Quantum Computing
... behave at a quantum level. At that level it is possible, say, for an atom to be rotating clockwise and counter-clockwise at the same time. This is known as quantum superpositon, the concept that at the quantum level an object may not have one simple state, but instead multiple states that all exist ...
... behave at a quantum level. At that level it is possible, say, for an atom to be rotating clockwise and counter-clockwise at the same time. This is known as quantum superpositon, the concept that at the quantum level an object may not have one simple state, but instead multiple states that all exist ...
Optimal quantum cloning of orbital angular momentum photon
... Hong-Ou-Mandel (HOM) effect5 has not been demonstrated yet with photons carrying nonzero OAM. In the case of the polarization degree of freedom, this phenomenon has played a crucial role in many recent developments of quantum information, as well as in fundamental studies of quantum nonlocality. It h ...
... Hong-Ou-Mandel (HOM) effect5 has not been demonstrated yet with photons carrying nonzero OAM. In the case of the polarization degree of freedom, this phenomenon has played a crucial role in many recent developments of quantum information, as well as in fundamental studies of quantum nonlocality. It h ...
(pdf)
... In classical computation, there are a of number problems that cannot be solved with efficient algorithms. For example, the best classical algorithm for factorizing a large integer N increases exponentially with the size of the integer. If we continue to increase the size of the integer, it does not ...
... In classical computation, there are a of number problems that cannot be solved with efficient algorithms. For example, the best classical algorithm for factorizing a large integer N increases exponentially with the size of the integer. If we continue to increase the size of the integer, it does not ...
Electronic Structure of Strained GaSb/GaAs Quantum Dot
... quantum dot sizes. In this comparison, we compare the PL spectra of the pure GaSb dot which has the average base width of 10.00 nm. The result demonstrates that theoretical PL peak is at 1.24 eV and experimental PL peak is approximately 1.15 eV. Our PL calculation is quite consistent with experiment ...
... quantum dot sizes. In this comparison, we compare the PL spectra of the pure GaSb dot which has the average base width of 10.00 nm. The result demonstrates that theoretical PL peak is at 1.24 eV and experimental PL peak is approximately 1.15 eV. Our PL calculation is quite consistent with experiment ...
Macroscopic Quantum Tunneling in a Josephson Junction Coupled
... Quantum computers may one day be based on these devices in the same way that modern computers are based on transistors. We need to know more about the behavior of these devices to use them for practical purposes. ...
... Quantum computers may one day be based on these devices in the same way that modern computers are based on transistors. We need to know more about the behavior of these devices to use them for practical purposes. ...
Quantum Information Technology based on Single Electron Dynamics
... or extracted from a quantum dot by applying a highspeed electrical signal with time accuracy better than 1 ns. The injection and extraction can be detected as a change in the charge on the dot with time accuracy better than 1 µs. Moreover, an electron in a quantum dot can be excited by applying micr ...
... or extracted from a quantum dot by applying a highspeed electrical signal with time accuracy better than 1 ns. The injection and extraction can be detected as a change in the charge on the dot with time accuracy better than 1 µs. Moreover, an electron in a quantum dot can be excited by applying micr ...
