Twisted Equivariant Matter - Rutgers Physics
... Schnyder; Roy; Stone, et. al. relating classification of topological phases of matter to K-theory. So, we spent some time struggling to understand what these papers had to say to us, and then we wrote our own version of this story. That paper is the subject of today’s talk. I’ll be explaining things ...
... Schnyder; Roy; Stone, et. al. relating classification of topological phases of matter to K-theory. So, we spent some time struggling to understand what these papers had to say to us, and then we wrote our own version of this story. That paper is the subject of today’s talk. I’ll be explaining things ...
Paper
... arrangement (a measure of nonrandom complexity), and asymmetric statistical distribution. Bios is an expanding aperiodic pattern with higher sensitivity to initial conditions than chaos, generated non-randomly by recursions of bipolar feedback (positive and negative opposition) and by physiological ...
... arrangement (a measure of nonrandom complexity), and asymmetric statistical distribution. Bios is an expanding aperiodic pattern with higher sensitivity to initial conditions than chaos, generated non-randomly by recursions of bipolar feedback (positive and negative opposition) and by physiological ...
Consequences of postselection - Conference in honor of John
... by fault-tolerant gadgets, and if the physical noise model is sufficiently benign, k levels of concatenation allows simulation of a logical computation at an effective noise rate O(²2k) if the physical noise rate is ² . Thus k ¼ O(log n) levels are sufficient to maintain the desired accuracy, and th ...
... by fault-tolerant gadgets, and if the physical noise model is sufficiently benign, k levels of concatenation allows simulation of a logical computation at an effective noise rate O(²2k) if the physical noise rate is ² . Thus k ¼ O(log n) levels are sufficient to maintain the desired accuracy, and th ...
Circuit QED: Superconducting Qubits Coupled to
... is great hope (and some mathematical proof) that such machines will have novel capabilities that are impossible to realize on classical hardware. You might think that quantum machines have already been built. For example, the laser and the transistor would seem to rely on quantum physics for their o ...
... is great hope (and some mathematical proof) that such machines will have novel capabilities that are impossible to realize on classical hardware. You might think that quantum machines have already been built. For example, the laser and the transistor would seem to rely on quantum physics for their o ...
generalized numerical ranges and quantum error correction
... Let x, y ∈ Cn . Denote by hAx, yi the vector (h A1 x, yi, . . . , h Am x, yi) ∈ Cm . Then a ∈ Λk (A) if and only if there exists an orthonormal set {x1 , . . . , xk } in Cn such that hAxi , x j i = δij a, where δij is the Kronecker delta. When k = 1, Λ1 (A) reduces to the (classical) joint numerical ...
... Let x, y ∈ Cn . Denote by hAx, yi the vector (h A1 x, yi, . . . , h Am x, yi) ∈ Cm . Then a ∈ Λk (A) if and only if there exists an orthonormal set {x1 , . . . , xk } in Cn such that hAxi , x j i = δij a, where δij is the Kronecker delta. When k = 1, Λ1 (A) reduces to the (classical) joint numerical ...
Quantum Mechanics as Quantum Information (and only a little more)
... combinations of terms) that can be interpreted as subjective information will we be in a position to make real progress in quantum foundations. The raw distillate left behind—miniscule though it may be with respect to the full-blown theory—will be our first glimpse of what quantum mechanics is trying ...
... combinations of terms) that can be interpreted as subjective information will we be in a position to make real progress in quantum foundations. The raw distillate left behind—miniscule though it may be with respect to the full-blown theory—will be our first glimpse of what quantum mechanics is trying ...
Quantum Mechanics as Quantum Information
... combinations of terms) that can be interpreted as subjective information will we be in a position to make real progress in quantum foundations. The raw distillate left behind—minuscule though it may be with respect to the full-blown theory—will be our first glimpse of what quantum mechanics is tryin ...
... combinations of terms) that can be interpreted as subjective information will we be in a position to make real progress in quantum foundations. The raw distillate left behind—minuscule though it may be with respect to the full-blown theory—will be our first glimpse of what quantum mechanics is tryin ...
Evaluation, Hybridization and Application of Quantum Inspired
... world problems qualitatively. Examples of such hybridized algorithms are: Genetic Simulated Annealing Algorithm (GASAA) [WZ 2005], Hybrid Immune Algorithm that combines the benefit of Artificial Immune Algorithm and Hill Climbing local search algorithm [YA 2009], A quantum particle swarm optimizer w ...
... world problems qualitatively. Examples of such hybridized algorithms are: Genetic Simulated Annealing Algorithm (GASAA) [WZ 2005], Hybrid Immune Algorithm that combines the benefit of Artificial Immune Algorithm and Hill Climbing local search algorithm [YA 2009], A quantum particle swarm optimizer w ...
Non-equilibrium steady state of sparse systems OFFPRINT and D. Cohen D. Hurowitz
... Experimental signature. – The thermodynamic definition of temperature which we have adopted via eq. (5) is related to the heat flow between two bodies: it is the same concept which is reflected in the phrasing of “the zeroth law of thermodynamics” and in the associated definition of empirical temperat ...
... Experimental signature. – The thermodynamic definition of temperature which we have adopted via eq. (5) is related to the heat flow between two bodies: it is the same concept which is reflected in the phrasing of “the zeroth law of thermodynamics” and in the associated definition of empirical temperat ...
Chapter 1. The Basics of Quantum Mechanics
... each atom emits only certain kinds of photons. It was believed that photon emission occurred when an electron moving in a larger circular orbit lost energy and moved to a smaller circular orbit. However, the Newtonian dynamics that produced the above equation would allow orbits of any radius, and he ...
... each atom emits only certain kinds of photons. It was believed that photon emission occurred when an electron moving in a larger circular orbit lost energy and moved to a smaller circular orbit. However, the Newtonian dynamics that produced the above equation would allow orbits of any radius, and he ...
Quantum teleportation
Quantum teleportation is a process by which quantum information (e.g. the exact state of an atom or photon) can be transmitted (exactly, in principle) from one location to another, with the help of classical communication and previously shared quantum entanglement between the sending and receiving location. Because it depends on classical communication, which can proceed no faster than the speed of light, it cannot be used for faster-than-light transport or communication of classical bits. It also cannot be used to make copies of a system, as this violates the no-cloning theorem. While it has proven possible to teleport one or more qubits of information between two (entangled) atoms, this has not yet been achieved between molecules or anything larger.Although the name is inspired by the teleportation commonly used in fiction, there is no relationship outside the name, because quantum teleportation concerns only the transfer of information. Quantum teleportation is not a form of transportation, but of communication; it provides a way of transporting a qubit from one location to another, without having to move a physical particle along with it.The seminal paper first expounding the idea was published by C. H. Bennett, G. Brassard, C. Crépeau, R. Jozsa, A. Peres and W. K. Wootters in 1993. Since then, quantum teleportation was first realized with single photons and later demonstrated with various material systems such as atoms, ions, electrons and superconducting circuits. The record distance for quantum teleportation is 143 km (89 mi).