P. Mignon, J. Steyaert, R. Loris, P. Geerlings, and S. Loverix, J. Biol
... Table I summarizes the crystallographic details of the structures that were used as a starting point for the computational study. In each mutant structure, the 3⬘-GMP substrate is bound in a catalytic productive mode, as is the case for the wild type structure (8). Apart from direct interactions inv ...
... Table I summarizes the crystallographic details of the structures that were used as a starting point for the computational study. In each mutant structure, the 3⬘-GMP substrate is bound in a catalytic productive mode, as is the case for the wild type structure (8). Apart from direct interactions inv ...
Quantum factorization of 56153 with only 4 qubits
... et al. [1] in 2012 factored an entire class of numbers, and not just the one number that they reported (which was 143). The largest such number that we found without using any prior knowledge of the solution to the factorization problem was 56153. Since the experiment in [1] only involved 4 qubits, ...
... et al. [1] in 2012 factored an entire class of numbers, and not just the one number that they reported (which was 143). The largest such number that we found without using any prior knowledge of the solution to the factorization problem was 56153. Since the experiment in [1] only involved 4 qubits, ...
From photoelectric effect to digital imaging - beim Quantum Spin
... Learning station VI: From photoelectric effect to digital imaging Starting with the working of a digital camera we will discover that digital imaging is possible thank to a quantum effect called the photoelectric effect. We will study this phenomenon, first trying to explain it using classical physi ...
... Learning station VI: From photoelectric effect to digital imaging Starting with the working of a digital camera we will discover that digital imaging is possible thank to a quantum effect called the photoelectric effect. We will study this phenomenon, first trying to explain it using classical physi ...
AAAI Proceedings Template
... Markov and quantum models of human decision making and prove that only the latter is capable of producing this type of interference effect. The decision models are developed within the context of a decision paradigm called the signal detection paradigm. Signal detection is a fundamentally important ...
... Markov and quantum models of human decision making and prove that only the latter is capable of producing this type of interference effect. The decision models are developed within the context of a decision paradigm called the signal detection paradigm. Signal detection is a fundamentally important ...
The Quantum Error Correcting Criteria
... a code which corrects X, Y , and Z errors, since every single qubit error operator can be written as a sum of these errors (plus identity, which we, by default almost always include in our possible errors.) This is what is known as make the errors discrete or digital. This discovery, that a code whi ...
... a code which corrects X, Y , and Z errors, since every single qubit error operator can be written as a sum of these errors (plus identity, which we, by default almost always include in our possible errors.) This is what is known as make the errors discrete or digital. This discovery, that a code whi ...
Backup of MajorFileds070805jrv.wbk
... Potential energies are associated with systems of interacting entities. Potential energies are associated with pairs of things (at least) while a kinetic energy can be owned by a single entity. The potential energy can be shifted by an additive constant. For SHM, it is often set to zero for a partic ...
... Potential energies are associated with systems of interacting entities. Potential energies are associated with pairs of things (at least) while a kinetic energy can be owned by a single entity. The potential energy can be shifted by an additive constant. For SHM, it is often set to zero for a partic ...
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 ...
Weak antilocalization and spin relaxation in integrable quantum dots O Z
... thereby assuming disordered or completely chaotic cavities. In this contribution, we will focus on the opposite case, on integrable confinement geometries giving rise to regular orbital dynamics, where random matrix theory (RMT) is not applicable. To this end, we will employ a recently developed sem ...
... thereby assuming disordered or completely chaotic cavities. In this contribution, we will focus on the opposite case, on integrable confinement geometries giving rise to regular orbital dynamics, where random matrix theory (RMT) is not applicable. To this end, we will employ a recently developed sem ...
1- Harmonic Oscillator in an impenetrable N - An
... of the electronic structure of such systems necessarily has to take into account the presence of the finite confining boundaries and their effect on the system. During the past years, the generalization of physical problems to higher dimensions received a considerable development in theoretical and ...
... of the electronic structure of such systems necessarily has to take into account the presence of the finite confining boundaries and their effect on the system. During the past years, the generalization of physical problems to higher dimensions received a considerable development in theoretical and ...
Simulation of Quantum Gates on a Novel GPU Architecture
... 1-qubit elementary transformation U . As forementioned, our simulation model (Fig. 1) involves a classical computation (code running on the host), and a quantum computation which is just simulated on the GPU (kernel code running in parallel on the device). When designing the kernel code some limitat ...
... 1-qubit elementary transformation U . As forementioned, our simulation model (Fig. 1) involves a classical computation (code running on the host), and a quantum computation which is just simulated on the GPU (kernel code running in parallel on the device). When designing the kernel code some limitat ...
What General Chemistry Students Know (and Don`t Know) About
... • The students were baffled by how to resolve the particle-like nature of light with its presumptive wave-like property. • They were uniformly unaware that it is the electric and magnetic fields’ oscillations that give rise to the wave-like character of light. • Not a single student could properly l ...
... • The students were baffled by how to resolve the particle-like nature of light with its presumptive wave-like property. • They were uniformly unaware that it is the electric and magnetic fields’ oscillations that give rise to the wave-like character of light. • Not a single student could properly l ...
What General Chemistry Students Know
... • The students were baffled by how to resolve the particle-like nature of light with its presumptive wave-like property. • They were uniformly unaware that it is the electric and magnetic fields’ oscillations that give rise to the wave-like character of light. • Not a single student could properly l ...
... • The students were baffled by how to resolve the particle-like nature of light with its presumptive wave-like property. • They were uniformly unaware that it is the electric and magnetic fields’ oscillations that give rise to the wave-like character of light. • Not a single student could properly l ...
Hydrogen atom
A hydrogen atom is an atom of the chemical element hydrogen. The electrically neutral atom contains a single positively charged proton and a single negatively charged electron bound to the nucleus by the Coulomb force. Atomic hydrogen constitutes about 75% of the elemental (baryonic) mass of the universe.In everyday life on Earth, isolated hydrogen atoms (usually called ""atomic hydrogen"" or, more precisely, ""monatomic hydrogen"") are extremely rare. Instead, hydrogen tends to combine with other atoms in compounds, or with itself to form ordinary (diatomic) hydrogen gas, H2. ""Atomic hydrogen"" and ""hydrogen atom"" in ordinary English use have overlapping, yet distinct, meanings. For example, a water molecule contains two hydrogen atoms, but does not contain atomic hydrogen (which would refer to isolated hydrogen atoms).