An Exploration of Powerful Power of Thought Experiences
... seems more than plausible that this active information could be related to an interface point between our macro world and the quantum world. Just as Bohm postulates regarding the quantum potential as active information involving an experiment and Peat elaborates on in terms of just how much would ha ...
... seems more than plausible that this active information could be related to an interface point between our macro world and the quantum world. Just as Bohm postulates regarding the quantum potential as active information involving an experiment and Peat elaborates on in terms of just how much would ha ...
Science Journals — AAAS
... enough quantum systems to chain together many gates into circuits. One example of this is the quantum Fredkin gate, which requires at least five two-qubit gates (4) to be implemented in the standard circuit model. Thus, despite featuring prominently in quantum computing (5–7), error correction (8, 9 ...
... enough quantum systems to chain together many gates into circuits. One example of this is the quantum Fredkin gate, which requires at least five two-qubit gates (4) to be implemented in the standard circuit model. Thus, despite featuring prominently in quantum computing (5–7), error correction (8, 9 ...
QUANTUM COMPUTING: AN OVERVIEW
... physics is the superposition principle by which a quantum system can take several different states simultaneously. The input for a quantum computing device may be a superposition of many possible inputs, and accordingly the output is also a superposition of the corresponding output states. Another as ...
... physics is the superposition principle by which a quantum system can take several different states simultaneously. The input for a quantum computing device may be a superposition of many possible inputs, and accordingly the output is also a superposition of the corresponding output states. Another as ...
On the correspondence principle
... that leverage this relationship in order to determine Planck’s constant (see, for example, [23]). Hence, we arrive at an interesting situation. In order to apply the correspondence principle we would normally wish to shrink h̄ arbitrarily. However, we cannot do this without also changing 80 , which ...
... that leverage this relationship in order to determine Planck’s constant (see, for example, [23]). Hence, we arrive at an interesting situation. In order to apply the correspondence principle we would normally wish to shrink h̄ arbitrarily. However, we cannot do this without also changing 80 , which ...
Science Journals — AAAS
... One of the greatest challenges in modern science is the realization of quantum computers (1–3), which, as they increase in scale, will allow enhanced performance of tasks in secure networking, simulations, distributed computing, and other key tasks where exponential speedups are available. Processin ...
... One of the greatest challenges in modern science is the realization of quantum computers (1–3), which, as they increase in scale, will allow enhanced performance of tasks in secure networking, simulations, distributed computing, and other key tasks where exponential speedups are available. Processin ...
Fault-Tolerant Quantum Computation and the Threshold Theorem
... Suppose that we have constructed a fault-tolerant set of operations (gates, preparation, measurement, error correction) for a quantum error correcting code. In such a construction, if the failure probability of individual components is p (we will assume failure probabilities, a more detailed analysi ...
... Suppose that we have constructed a fault-tolerant set of operations (gates, preparation, measurement, error correction) for a quantum error correcting code. In such a construction, if the failure probability of individual components is p (we will assume failure probabilities, a more detailed analysi ...
Computational advantage from quantum
... are decomposed in a polynomial amount of elementary gates, they can be given as an input of polynomial size to a classical algorithm, and it makes sense to compare the classical and quantum running times. As argued above, the problem of determining y reduces to the problem of calculating the relativ ...
... are decomposed in a polynomial amount of elementary gates, they can be given as an input of polynomial size to a classical algorithm, and it makes sense to compare the classical and quantum running times. As argued above, the problem of determining y reduces to the problem of calculating the relativ ...
Quantum Computing - Computer Science and Engineering
... – Application of a “rotation” or phase shift to a qubit. – This is not measurement! – Can be viewed as matrix multiplication. ...
... – Application of a “rotation” or phase shift to a qubit. – This is not measurement! – Can be viewed as matrix multiplication. ...
Quantum mechanics as a representation of classical conditional
... Then for any p ≈ 1 and ϕ ≈ π/2: ...
... Then for any p ≈ 1 and ϕ ≈ π/2: ...
A macroscopic violation of no-signaling in time inequalities? How to
... masked positive (Study 1 or neutral, Studies 2 and 4) or negative picture was presented. The masked picture presentation consisted of three consecutive stimulus presentations. First, a masking stimulus was presented for 72 ms, followed by the presentation of a negative or positive (neutral) picture ...
... masked positive (Study 1 or neutral, Studies 2 and 4) or negative picture was presented. The masked picture presentation consisted of three consecutive stimulus presentations. First, a masking stimulus was presented for 72 ms, followed by the presentation of a negative or positive (neutral) picture ...
Propagation of double Rydberg wave packets F Robicheaux and R C Forrey doi:10.1088/0953-4075/38/2/027
... electrons simultaneously in nRyd ∼ 15 states; both electrons are in the semiclassical limit and some correspondence with classical motion may be observed. For all the calculations presented in this paper, the angular momentum and spin of the two electrons are coupled together so that both the total ...
... electrons simultaneously in nRyd ∼ 15 states; both electrons are in the semiclassical limit and some correspondence with classical motion may be observed. For all the calculations presented in this paper, the angular momentum and spin of the two electrons are coupled together so that both the total ...