Transformations of Entangled Mixed States of Two Qubits
... the abbreviation bit), which could be either 0 or 1. In quantum information and computation the fundamental unit is called a quantum bit (with the abbreviation qubit)[31]. A qubit not only takes the values of either 0 or 1, but also it can take on values which are superpositions of both 0 and 1. In ...
... the abbreviation bit), which could be either 0 or 1. In quantum information and computation the fundamental unit is called a quantum bit (with the abbreviation qubit)[31]. A qubit not only takes the values of either 0 or 1, but also it can take on values which are superpositions of both 0 and 1. In ...
Introduction to Quantum Information Science
... These criteria laid out by Divincenzo will be our guiding light for analyzing physical systems to determine if they are capable of becoming scalable universal quantum information processing systems. However, before we get into the physical systems, these criteria bring up some general terms which we ...
... These criteria laid out by Divincenzo will be our guiding light for analyzing physical systems to determine if they are capable of becoming scalable universal quantum information processing systems. However, before we get into the physical systems, these criteria bring up some general terms which we ...
A low-resource quantum factoring algorithm
... 1.2. Discrete logarithms. The same idea can also be used for multiplicativegroup discrete logarithms. (On the other hand, the idea has no obvious impact upon the number of qubits needed for elliptic-curve discrete logarithms.) Specifically, the idea of NFS has been adapted to solving discrete-logari ...
... 1.2. Discrete logarithms. The same idea can also be used for multiplicativegroup discrete logarithms. (On the other hand, the idea has no obvious impact upon the number of qubits needed for elliptic-curve discrete logarithms.) Specifically, the idea of NFS has been adapted to solving discrete-logari ...
Quantum_Computing
... still foreseeable future, "Silicon dioxide may also need replacement as a gate dielectric material...this critical feature of a transistor will be so thin that the quantum mechanical effect called tunneling comes into play."3 Quantum tunneling is a phenomenon wherein individual particles, such as el ...
... still foreseeable future, "Silicon dioxide may also need replacement as a gate dielectric material...this critical feature of a transistor will be so thin that the quantum mechanical effect called tunneling comes into play."3 Quantum tunneling is a phenomenon wherein individual particles, such as el ...
How Quantum Computers Fail - Einstein Institute of Mathematics
... computer cycle. Of course, qubit errors and gate errors propagate along the computation. The “overall error” describing the gap between the intended state of the computer and its noisy state takes into account also the cumulated effect of errors from earlier computer cycles. The basic picture we hav ...
... computer cycle. Of course, qubit errors and gate errors propagate along the computation. The “overall error” describing the gap between the intended state of the computer and its noisy state takes into account also the cumulated effect of errors from earlier computer cycles. The basic picture we hav ...
Genetic Programming for Quantum Computers - Faculty
... and qubit 2 as output, this can be notated in matrix form as shown in Figure 3. The work described in this paper uses CNOT, quantum NAND, and the additional Hadamard and rotation quantum gates shown in Figures 4 and 5. To apply these operators to a particular qubit (in the case of Hadamard and the r ...
... and qubit 2 as output, this can be notated in matrix form as shown in Figure 3. The work described in this paper uses CNOT, quantum NAND, and the additional Hadamard and rotation quantum gates shown in Figures 4 and 5. To apply these operators to a particular qubit (in the case of Hadamard and the r ...
7 Quantum Computing Applications of Genetic Programming
... this scale are governed by the laws of quantum mechanics rather than by classical physics, and this makes it possible for a quantum computer to do things that a common digital (“classical”) computer cannot. In particular, quantum computers can solve certain problems using less time and space resourc ...
... this scale are governed by the laws of quantum mechanics rather than by classical physics, and this makes it possible for a quantum computer to do things that a common digital (“classical”) computer cannot. In particular, quantum computers can solve certain problems using less time and space resourc ...
Gibbs paradox of entropy of mixing: Experimental facts, its rejection, and the theoretical consequences
... Kekule structures of benzene, is the most prominent one. Resonance means the time average of several states used to represent a system [29]. The resonance principle has been skilfully used by Pauling (p. 12 of [28]) who attributed the resonance principle to Heisenberg [29]. In quantum mechanics, we ...
... Kekule structures of benzene, is the most prominent one. Resonance means the time average of several states used to represent a system [29]. The resonance principle has been skilfully used by Pauling (p. 12 of [28]) who attributed the resonance principle to Heisenberg [29]. In quantum mechanics, we ...
